Fix the inaccuracy of j0f/j1f/y0f/y1f [BZ #14469, #14470, #14471, #14472]

Message ID 20210331061221.2215282-1-Paul.Zimmermann@inria.fr
State Superseded
Headers show
Series
  • Fix the inaccuracy of j0f/j1f/y0f/y1f [BZ #14469, #14470, #14471, #14472]
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Commit Message

Paul Zimmermann March 31, 2021, 6:12 a.m.
For j0f/j1f/y0f/y1f, the largest error for all binary32
inputs is reduced to at most 9 ulps for all rounding modes.

The new code is enabled only when there is a cancellation at the very end of
the j0f/j1f/y0f/y1f computation, or for very large inputs, thus should not
give any visible slowdown on average.  Two different algorithms are used:

* around the first 64 zeros of j0/j1/y0/y1, approximation polynomials of
  degree 3 are used, computed using the Sollya tool (https://www.sollya.org/)

* for large inputs, an asymptotic formula from [1] is used

[1] Fast and Accurate Bessel Function Computation,
    John Harrison, Proceedings of Arith 19, 2009.

Inputs yielding the new largest errors are added to auto-libm-test-in,
and ulps are regenerated for various targets (thanks Adhemerval Zanella).

Tested on x86_64 with --disable-multi-arch and on powerpc64le-linux-gnu.
---
 math/auto-libm-test-in             |  20 +-
 math/auto-libm-test-out-j0         |  50 +++
 math/auto-libm-test-out-j1         |  50 +++
 math/auto-libm-test-out-y0         |  50 +++
 math/auto-libm-test-out-y1         |  75 +++++
 sysdeps/aarch64/libm-test-ulps     |  70 ++--
 sysdeps/ieee754/flt-32/e_j0f.c     | 515 ++++++++++++++++++++++++++---
 sysdeps/ieee754/flt-32/e_j1f.c     | 512 ++++++++++++++++++++++++++--
 sysdeps/powerpc/fpu/libm-test-ulps |  62 ++--
 sysdeps/s390/fpu/libm-test-ulps    |  68 ++--
 sysdeps/sparc/fpu/libm-test-ulps   |  68 ++--
 sysdeps/x86_64/fpu/libm-test-ulps  |  76 ++---
 12 files changed, 1371 insertions(+), 245 deletions(-)

-- 
2.30.2

Comments

Alexander Monakov via Libc-alpha March 31, 2021, 6:37 p.m. | #1
On 31/03/2021 03:12, Paul Zimmermann wrote:
> For j0f/j1f/y0f/y1f, the largest error for all binary32

> inputs is reduced to at most 9 ulps for all rounding modes.

> 

> The new code is enabled only when there is a cancellation at the very end of

> the j0f/j1f/y0f/y1f computation, or for very large inputs, thus should not

> give any visible slowdown on average.  Two different algorithms are used:

> 

> * around the first 64 zeros of j0/j1/y0/y1, approximation polynomials of

>   degree 3 are used, computed using the Sollya tool (https://www.sollya.org/)

> 

> * for large inputs, an asymptotic formula from [1] is used

> 

> [1] Fast and Accurate Bessel Function Computation,

>     John Harrison, Proceedings of Arith 19, 2009.

> 

> Inputs yielding the new largest errors are added to auto-libm-test-in,

> and ulps are regenerated for various targets (thanks Adhemerval Zanella).

> 

> Tested on x86_64 with --disable-multi-arch and on powerpc64le-linux-gnu.

> ---

>  math/auto-libm-test-in             |  20 +-

>  math/auto-libm-test-out-j0         |  50 +++

>  math/auto-libm-test-out-j1         |  50 +++

>  math/auto-libm-test-out-y0         |  50 +++

>  math/auto-libm-test-out-y1         |  75 +++++

>  sysdeps/aarch64/libm-test-ulps     |  70 ++--

>  sysdeps/ieee754/flt-32/e_j0f.c     | 515 ++++++++++++++++++++++++++---

>  sysdeps/ieee754/flt-32/e_j1f.c     | 512 ++++++++++++++++++++++++++--

>  sysdeps/powerpc/fpu/libm-test-ulps |  62 ++--

>  sysdeps/s390/fpu/libm-test-ulps    |  68 ++--

>  sysdeps/sparc/fpu/libm-test-ulps   |  68 ++--

>  sysdeps/x86_64/fpu/libm-test-ulps  |  76 ++---

>  12 files changed, 1371 insertions(+), 245 deletions(-)


Paul,

This version still misses the reduce_aux.h file.
Paul Zimmermann March 31, 2021, 7:27 p.m. | #2
Dear Adhemerval,

> This version still misses the reduce_aux.h file.


sorry I will send it in a separate mail. Should I resend the whole patch?

Paul
Alexander Monakov via Libc-alpha March 31, 2021, 7:28 p.m. | #3
On 31/03/2021 16:27, Paul Zimmermann wrote:
>        Dear Adhemerval,

> 

>> This version still misses the reduce_aux.h file.

> 

> sorry I will send it in a separate mail. Should I resend the whole patch?


Please send a newer version.  It also helps to tag with a version number
(-v number git-send-email option).
Alexander Monakov via Libc-alpha March 31, 2021, 7:31 p.m. | #4
On 31/03/2021 16:28, Adhemerval Zanella wrote:
> 

> 

> On 31/03/2021 16:27, Paul Zimmermann wrote:

>>        Dear Adhemerval,

>>

>>> This version still misses the reduce_aux.h file.

>>

>> sorry I will send it in a separate mail. Should I resend the whole patch?

> 

> Please send a newer version.  It also helps to tag with a version number

> (-v number git-send-email option).

> 


Or you can send it separately, as you did (I just noted).  In this case,
please refer to this email on the commit message (to help review) or
send as thread (so both patches are linked).

I think it would be better to just squash the reduce_aux.h on the 
jN and yN fix, since they are the logical user.
Paul Zimmermann April 1, 2021, 6:15 a.m. | #5
Dear Adhemerval,

> Please send a newer version.  It also helps to tag with a version number

> (-v number git-send-email option).


I sent a new version, tagged "v10". Hopefully this one is ok!
Sorry to all for the noise.

Paul

Patch

diff --git a/math/auto-libm-test-in b/math/auto-libm-test-in
index 4edaaa8ee1..9fbd0c626b 100644
--- a/math/auto-libm-test-in
+++ b/math/auto-libm-test-in
@@ -5790,8 +5790,11 @@  j0 -0x1.001000001p+593
 j0 0x1p1023
 j0 0x1p16382
 j0 0x1p16383
-# the next value generates larger error bounds on x86_64 (binary32)
+# the next values yield large errors for binary32
+# (cf BZ #27670 for the xfail entry)
 j0 0x2.602774p+0 xfail-rounding:ibm128-libgcc
+j0 0x1.04c39cp+6
+j0 0x1.4b7066p+7
 # the next value exercises the flt-32 code path for x >= 2^127
 j0 0x8.2f4ecp+124
 
@@ -5825,8 +5828,11 @@  j1 0x1p-60
 j1 0x1p-100
 j1 0x1p-600
 j1 0x1p-10000
-# the next value generates larger error bounds on x86_64 (binary32)
+# the next values yield large errors in the binary32 format
+# (cf BZ #27670 for the xfail entries)
 j1 0x3.ae4b2p+0 xfail-rounding:ibm128-libgcc
+j1 0x1.2f28eap+7 xfail-rounding:binary64 xfail-rounding:binary128 xfail-rounding:intel96 xfail-rounding:ibm128-libgcc
+j1 0x1.a1d20ap+6 xfail-rounding:binary128 xfail-rounding:intel96 xfail-rounding:ibm128-libgcc
 j1 min
 j1 -min
 j1 min_subnorm
@@ -8273,8 +8279,11 @@  y0 0x1p-100
 y0 0x1p-110
 y0 0x1p-600
 y0 0x1p-10000
-# the next value generates larger error bounds on x86_64 (binary32)
+# the next values yield large errors for binary32
+# (cf BZ #16492 for the xfail entries)
 y0 0xd.3432bp-4
+y0 0x1.33eaacp+5 xfail:binary64 xfail:intel96 xfail-rounding:ibm128-libgcc
+y0 0x1.a681cep-1 xfail-rounding:ibm128-libgcc
 y0 min
 y0 min_subnorm
 
@@ -8303,6 +8312,11 @@  y1 0x1p-100
 y1 0x1p-110
 y1 0x1p-600
 y1 0x1p-10000
+# the next three values yield the largest error in the binary32 format
+# (cf BZ #27670 for the xfail entries)
+y1 0x1.065194p+7 xfail-rounding:binary64 xfail-rounding:intel96 xfail-rounding:ibm128-libgcc
+y1 0x1.c1badep+0 xfail-rounding:ibm128-libgcc
+y1 0x1.c1bc2ep+0
 y1 min
 y1 min_subnorm
 
diff --git a/math/auto-libm-test-out-j0 b/math/auto-libm-test-out-j0
index cc1fea074e..85c4148de3 100644
--- a/math/auto-libm-test-out-j0
+++ b/math/auto-libm-test-out-j0
@@ -1359,6 +1359,56 @@  j0 0x2.602774p+0 xfail-rounding:ibm128-libgcc
 = j0 tonearest ibm128 0x2.602774p+0 : 0x3.e83779fe19911fa806cee83ab7p-8 : inexact-ok
 = j0 towardzero ibm128 0x2.602774p+0 : 0x3.e83779fe19911fa806cee83ab7p-8 : xfail:ibm128-libgcc inexact-ok
 = j0 upward ibm128 0x2.602774p+0 : 0x3.e83779fe19911fa806cee83ab8p-8 : xfail:ibm128-libgcc inexact-ok
+j0 0x1.04c39cp+6
+= j0 downward binary32 0x4.130e7p+4 : -0x6.dd65d8p-16 : inexact-ok
+= j0 tonearest binary32 0x4.130e7p+4 : -0x6.dd65dp-16 : inexact-ok
+= j0 towardzero binary32 0x4.130e7p+4 : -0x6.dd65dp-16 : inexact-ok
+= j0 upward binary32 0x4.130e7p+4 : -0x6.dd65dp-16 : inexact-ok
+= j0 downward binary64 0x4.130e7p+4 : -0x6.dd65d0005a19p-16 : inexact-ok
+= j0 tonearest binary64 0x4.130e7p+4 : -0x6.dd65d0005a18cp-16 : inexact-ok
+= j0 towardzero binary64 0x4.130e7p+4 : -0x6.dd65d0005a18cp-16 : inexact-ok
+= j0 upward binary64 0x4.130e7p+4 : -0x6.dd65d0005a18cp-16 : inexact-ok
+= j0 downward intel96 0x4.130e7p+4 : -0x6.dd65d0005a18c04p-16 : inexact-ok
+= j0 tonearest intel96 0x4.130e7p+4 : -0x6.dd65d0005a18c04p-16 : inexact-ok
+= j0 towardzero intel96 0x4.130e7p+4 : -0x6.dd65d0005a18c038p-16 : inexact-ok
+= j0 upward intel96 0x4.130e7p+4 : -0x6.dd65d0005a18c038p-16 : inexact-ok
+= j0 downward m68k96 0x4.130e7p+4 : -0x6.dd65d0005a18c04p-16 : inexact-ok
+= j0 tonearest m68k96 0x4.130e7p+4 : -0x6.dd65d0005a18c04p-16 : inexact-ok
+= j0 towardzero m68k96 0x4.130e7p+4 : -0x6.dd65d0005a18c038p-16 : inexact-ok
+= j0 upward m68k96 0x4.130e7p+4 : -0x6.dd65d0005a18c038p-16 : inexact-ok
+= j0 downward binary128 0x4.130e7p+4 : -0x6.dd65d0005a18c03fc1c61141bb64p-16 : inexact-ok
+= j0 tonearest binary128 0x4.130e7p+4 : -0x6.dd65d0005a18c03fc1c61141bb6p-16 : inexact-ok
+= j0 towardzero binary128 0x4.130e7p+4 : -0x6.dd65d0005a18c03fc1c61141bb6p-16 : inexact-ok
+= j0 upward binary128 0x4.130e7p+4 : -0x6.dd65d0005a18c03fc1c61141bb6p-16 : inexact-ok
+= j0 downward ibm128 0x4.130e7p+4 : -0x6.dd65d0005a18c03fc1c61141bcp-16 : inexact-ok
+= j0 tonearest ibm128 0x4.130e7p+4 : -0x6.dd65d0005a18c03fc1c61141bcp-16 : inexact-ok
+= j0 towardzero ibm128 0x4.130e7p+4 : -0x6.dd65d0005a18c03fc1c61141bap-16 : inexact-ok
+= j0 upward ibm128 0x4.130e7p+4 : -0x6.dd65d0005a18c03fc1c61141bap-16 : inexact-ok
+j0 0x1.4b7066p+7
+= j0 downward binary32 0xa.5b833p+4 : 0xf.80edp-20 : inexact-ok
+= j0 tonearest binary32 0xa.5b833p+4 : 0xf.80edp-20 : inexact-ok
+= j0 towardzero binary32 0xa.5b833p+4 : 0xf.80edp-20 : inexact-ok
+= j0 upward binary32 0xa.5b833p+4 : 0xf.80ed1p-20 : inexact-ok
+= j0 downward binary64 0xa.5b833p+4 : 0xf.80ed0055a8e58p-20 : inexact-ok
+= j0 tonearest binary64 0xa.5b833p+4 : 0xf.80ed0055a8e6p-20 : inexact-ok
+= j0 towardzero binary64 0xa.5b833p+4 : 0xf.80ed0055a8e58p-20 : inexact-ok
+= j0 upward binary64 0xa.5b833p+4 : 0xf.80ed0055a8e6p-20 : inexact-ok
+= j0 downward intel96 0xa.5b833p+4 : 0xf.80ed0055a8e5c88p-20 : inexact-ok
+= j0 tonearest intel96 0xa.5b833p+4 : 0xf.80ed0055a8e5c89p-20 : inexact-ok
+= j0 towardzero intel96 0xa.5b833p+4 : 0xf.80ed0055a8e5c88p-20 : inexact-ok
+= j0 upward intel96 0xa.5b833p+4 : 0xf.80ed0055a8e5c89p-20 : inexact-ok
+= j0 downward m68k96 0xa.5b833p+4 : 0xf.80ed0055a8e5c88p-20 : inexact-ok
+= j0 tonearest m68k96 0xa.5b833p+4 : 0xf.80ed0055a8e5c89p-20 : inexact-ok
+= j0 towardzero m68k96 0xa.5b833p+4 : 0xf.80ed0055a8e5c88p-20 : inexact-ok
+= j0 upward m68k96 0xa.5b833p+4 : 0xf.80ed0055a8e5c89p-20 : inexact-ok
+= j0 downward binary128 0xa.5b833p+4 : 0xf.80ed0055a8e5c88af9c0edfe12ap-20 : inexact-ok
+= j0 tonearest binary128 0xa.5b833p+4 : 0xf.80ed0055a8e5c88af9c0edfe12a8p-20 : inexact-ok
+= j0 towardzero binary128 0xa.5b833p+4 : 0xf.80ed0055a8e5c88af9c0edfe12ap-20 : inexact-ok
+= j0 upward binary128 0xa.5b833p+4 : 0xf.80ed0055a8e5c88af9c0edfe12a8p-20 : inexact-ok
+= j0 downward ibm128 0xa.5b833p+4 : 0xf.80ed0055a8e5c88af9c0edfe1p-20 : inexact-ok
+= j0 tonearest ibm128 0xa.5b833p+4 : 0xf.80ed0055a8e5c88af9c0edfe14p-20 : inexact-ok
+= j0 towardzero ibm128 0xa.5b833p+4 : 0xf.80ed0055a8e5c88af9c0edfe1p-20 : inexact-ok
+= j0 upward ibm128 0xa.5b833p+4 : 0xf.80ed0055a8e5c88af9c0edfe14p-20 : inexact-ok
 j0 0x8.2f4ecp+124
 = j0 downward binary32 0x8.2f4ecp+124 : 0xd.331efp-68 : inexact-ok
 = j0 tonearest binary32 0x8.2f4ecp+124 : 0xd.331efp-68 : inexact-ok
diff --git a/math/auto-libm-test-out-j1 b/math/auto-libm-test-out-j1
index 6bc3bbe5a4..f808801976 100644
--- a/math/auto-libm-test-out-j1
+++ b/math/auto-libm-test-out-j1
@@ -993,6 +993,56 @@  j1 0x3.ae4b2p+0 xfail-rounding:ibm128-libgcc
 = j1 tonearest ibm128 0x3.ae4b2p+0 : 0xf.d085c66e86f30267f22d6f787cp-8 : inexact-ok
 = j1 towardzero ibm128 0x3.ae4b2p+0 : 0xf.d085c66e86f30267f22d6f787cp-8 : xfail:ibm128-libgcc inexact-ok
 = j1 upward ibm128 0x3.ae4b2p+0 : 0xf.d085c66e86f30267f22d6f788p-8 : xfail:ibm128-libgcc inexact-ok
+j1 0x1.2f28eap+7 xfail-rounding:binary64 xfail-rounding:binary128 xfail-rounding:intel96 xfail-rounding:ibm128-libgcc
+= j1 downward binary32 0x9.79475p+4 : 0x2.49a6fp-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 tonearest binary32 0x9.79475p+4 : 0x2.49a6f4p-16 : inexact-ok
+= j1 towardzero binary32 0x9.79475p+4 : 0x2.49a6fp-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 upward binary32 0x9.79475p+4 : 0x2.49a6f4p-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 downward binary64 0x9.79475p+4 : 0x2.49a6f3fb00346p-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 tonearest binary64 0x9.79475p+4 : 0x2.49a6f3fb00346p-16 : inexact-ok
+= j1 towardzero binary64 0x9.79475p+4 : 0x2.49a6f3fb00346p-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 upward binary64 0x9.79475p+4 : 0x2.49a6f3fb00348p-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 downward intel96 0x9.79475p+4 : 0x2.49a6f3fb003462ap-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 tonearest intel96 0x9.79475p+4 : 0x2.49a6f3fb003462ap-16 : inexact-ok
+= j1 towardzero intel96 0x9.79475p+4 : 0x2.49a6f3fb003462ap-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 upward intel96 0x9.79475p+4 : 0x2.49a6f3fb003462a4p-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 downward m68k96 0x9.79475p+4 : 0x2.49a6f3fb003462ap-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 tonearest m68k96 0x9.79475p+4 : 0x2.49a6f3fb003462ap-16 : inexact-ok
+= j1 towardzero m68k96 0x9.79475p+4 : 0x2.49a6f3fb003462ap-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 upward m68k96 0x9.79475p+4 : 0x2.49a6f3fb003462a4p-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 downward binary128 0x9.79475p+4 : 0x2.49a6f3fb003462a1f15135cec05ap-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 tonearest binary128 0x9.79475p+4 : 0x2.49a6f3fb003462a1f15135cec05cp-16 : inexact-ok
+= j1 towardzero binary128 0x9.79475p+4 : 0x2.49a6f3fb003462a1f15135cec05ap-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 upward binary128 0x9.79475p+4 : 0x2.49a6f3fb003462a1f15135cec05cp-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 downward ibm128 0x9.79475p+4 : 0x2.49a6f3fb003462a1f15135cecp-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 tonearest ibm128 0x9.79475p+4 : 0x2.49a6f3fb003462a1f15135cecp-16 : inexact-ok
+= j1 towardzero ibm128 0x9.79475p+4 : 0x2.49a6f3fb003462a1f15135cecp-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 upward ibm128 0x9.79475p+4 : 0x2.49a6f3fb003462a1f15135cec1p-16 : xfail:binary64 xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+j1 0x1.a1d20ap+6 xfail-rounding:binary128 xfail-rounding:intel96 xfail-rounding:ibm128-libgcc
+= j1 downward binary32 0x6.874828p+4 : -0x3.d6f0b8p-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 tonearest binary32 0x6.874828p+4 : -0x3.d6f0b4p-16 : inexact-ok
+= j1 towardzero binary32 0x6.874828p+4 : -0x3.d6f0b4p-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 upward binary32 0x6.874828p+4 : -0x3.d6f0b4p-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 downward binary64 0x6.874828p+4 : -0x3.d6f0b408112dp-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 tonearest binary64 0x6.874828p+4 : -0x3.d6f0b408112dp-16 : inexact-ok
+= j1 towardzero binary64 0x6.874828p+4 : -0x3.d6f0b408112cep-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 upward binary64 0x6.874828p+4 : -0x3.d6f0b408112cep-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 downward intel96 0x6.874828p+4 : -0x3.d6f0b408112cf3dp-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 tonearest intel96 0x6.874828p+4 : -0x3.d6f0b408112cf3ccp-16 : inexact-ok
+= j1 towardzero intel96 0x6.874828p+4 : -0x3.d6f0b408112cf3ccp-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 upward intel96 0x6.874828p+4 : -0x3.d6f0b408112cf3ccp-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 downward m68k96 0x6.874828p+4 : -0x3.d6f0b408112cf3dp-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 tonearest m68k96 0x6.874828p+4 : -0x3.d6f0b408112cf3ccp-16 : inexact-ok
+= j1 towardzero m68k96 0x6.874828p+4 : -0x3.d6f0b408112cf3ccp-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 upward m68k96 0x6.874828p+4 : -0x3.d6f0b408112cf3ccp-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 downward binary128 0x6.874828p+4 : -0x3.d6f0b408112cf3cdb53ca3ca7088p-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 tonearest binary128 0x6.874828p+4 : -0x3.d6f0b408112cf3cdb53ca3ca7086p-16 : inexact-ok
+= j1 towardzero binary128 0x6.874828p+4 : -0x3.d6f0b408112cf3cdb53ca3ca7086p-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 upward binary128 0x6.874828p+4 : -0x3.d6f0b408112cf3cdb53ca3ca7086p-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 downward ibm128 0x6.874828p+4 : -0x3.d6f0b408112cf3cdb53ca3ca71p-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 tonearest ibm128 0x6.874828p+4 : -0x3.d6f0b408112cf3cdb53ca3ca71p-16 : inexact-ok
+= j1 towardzero ibm128 0x6.874828p+4 : -0x3.d6f0b408112cf3cdb53ca3ca7p-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= j1 upward ibm128 0x6.874828p+4 : -0x3.d6f0b408112cf3cdb53ca3ca7p-16 : xfail:binary128 xfail:intel96 xfail:ibm128-libgcc inexact-ok
 j1 min
 = j1 downward binary32 0x4p-128 : 0x1.fffff8p-128 : inexact-ok underflow errno-erange-ok
 = j1 tonearest binary32 0x4p-128 : 0x2p-128 : inexact-ok underflow errno-erange-ok
diff --git a/math/auto-libm-test-out-y0 b/math/auto-libm-test-out-y0
index 8ebb585170..f9742b0f69 100644
--- a/math/auto-libm-test-out-y0
+++ b/math/auto-libm-test-out-y0
@@ -820,6 +820,56 @@  y0 0xd.3432bp-4
 = y0 tonearest ibm128 0xd.3432bp-4 : -0xf.fdd871793bc71f92d6b137b44p-8 : inexact-ok
 = y0 towardzero ibm128 0xd.3432bp-4 : -0xf.fdd871793bc71f92d6b137b44p-8 : inexact-ok
 = y0 upward ibm128 0xd.3432bp-4 : -0xf.fdd871793bc71f92d6b137b44p-8 : inexact-ok
+y0 0x1.33eaacp+5 xfail:binary64 xfail:intel96 xfail-rounding:ibm128-libgcc
+= y0 downward binary32 0x2.67d558p+4 : 0xf.6b0ep-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y0 tonearest binary32 0x2.67d558p+4 : 0xf.6b0ep-16 : xfail:binary64 xfail:intel96 inexact-ok
+= y0 towardzero binary32 0x2.67d558p+4 : 0xf.6b0ep-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y0 upward binary32 0x2.67d558p+4 : 0xf.6b0e1p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y0 downward binary64 0x2.67d558p+4 : 0xf.6b0e005e95ad8p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y0 tonearest binary64 0x2.67d558p+4 : 0xf.6b0e005e95ad8p-16 : xfail:binary64 xfail:intel96 inexact-ok
+= y0 towardzero binary64 0x2.67d558p+4 : 0xf.6b0e005e95ad8p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y0 upward binary64 0x2.67d558p+4 : 0xf.6b0e005e95aep-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y0 downward intel96 0x2.67d558p+4 : 0xf.6b0e005e95ad82ap-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y0 tonearest intel96 0x2.67d558p+4 : 0xf.6b0e005e95ad82ap-16 : xfail:binary64 xfail:intel96 inexact-ok
+= y0 towardzero intel96 0x2.67d558p+4 : 0xf.6b0e005e95ad82ap-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y0 upward intel96 0x2.67d558p+4 : 0xf.6b0e005e95ad82bp-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y0 downward m68k96 0x2.67d558p+4 : 0xf.6b0e005e95ad82ap-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y0 tonearest m68k96 0x2.67d558p+4 : 0xf.6b0e005e95ad82ap-16 : xfail:binary64 xfail:intel96 inexact-ok
+= y0 towardzero m68k96 0x2.67d558p+4 : 0xf.6b0e005e95ad82ap-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y0 upward m68k96 0x2.67d558p+4 : 0xf.6b0e005e95ad82bp-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y0 downward binary128 0x2.67d558p+4 : 0xf.6b0e005e95ad82a5093316a6b86p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y0 tonearest binary128 0x2.67d558p+4 : 0xf.6b0e005e95ad82a5093316a6b86p-16 : xfail:binary64 xfail:intel96 inexact-ok
+= y0 towardzero binary128 0x2.67d558p+4 : 0xf.6b0e005e95ad82a5093316a6b86p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y0 upward binary128 0x2.67d558p+4 : 0xf.6b0e005e95ad82a5093316a6b868p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y0 downward ibm128 0x2.67d558p+4 : 0xf.6b0e005e95ad82a5093316a6b8p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y0 tonearest ibm128 0x2.67d558p+4 : 0xf.6b0e005e95ad82a5093316a6b8p-16 : xfail:binary64 xfail:intel96 inexact-ok
+= y0 towardzero ibm128 0x2.67d558p+4 : 0xf.6b0e005e95ad82a5093316a6b8p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y0 upward ibm128 0x2.67d558p+4 : 0xf.6b0e005e95ad82a5093316a6bcp-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+y0 0x1.a681cep-1 xfail-rounding:ibm128-libgcc
+= y0 downward binary32 0xd.340e7p-4 : -0xf.ffff8p-8 : xfail:ibm128-libgcc inexact-ok
+= y0 tonearest binary32 0xd.340e7p-4 : -0xf.ffff8p-8 : inexact-ok
+= y0 towardzero binary32 0xd.340e7p-4 : -0xf.ffff7p-8 : xfail:ibm128-libgcc inexact-ok
+= y0 upward binary32 0xd.340e7p-4 : -0xf.ffff7p-8 : xfail:ibm128-libgcc inexact-ok
+= y0 downward binary64 0xd.340e7p-4 : -0xf.ffff7f7e5aba8p-8 : xfail:ibm128-libgcc inexact-ok
+= y0 tonearest binary64 0xd.340e7p-4 : -0xf.ffff7f7e5aba8p-8 : inexact-ok
+= y0 towardzero binary64 0xd.340e7p-4 : -0xf.ffff7f7e5abap-8 : xfail:ibm128-libgcc inexact-ok
+= y0 upward binary64 0xd.340e7p-4 : -0xf.ffff7f7e5abap-8 : xfail:ibm128-libgcc inexact-ok
+= y0 downward intel96 0xd.340e7p-4 : -0xf.ffff7f7e5aba736p-8 : xfail:ibm128-libgcc inexact-ok
+= y0 tonearest intel96 0xd.340e7p-4 : -0xf.ffff7f7e5aba736p-8 : inexact-ok
+= y0 towardzero intel96 0xd.340e7p-4 : -0xf.ffff7f7e5aba735p-8 : xfail:ibm128-libgcc inexact-ok
+= y0 upward intel96 0xd.340e7p-4 : -0xf.ffff7f7e5aba735p-8 : xfail:ibm128-libgcc inexact-ok
+= y0 downward m68k96 0xd.340e7p-4 : -0xf.ffff7f7e5aba736p-8 : xfail:ibm128-libgcc inexact-ok
+= y0 tonearest m68k96 0xd.340e7p-4 : -0xf.ffff7f7e5aba736p-8 : inexact-ok
+= y0 towardzero m68k96 0xd.340e7p-4 : -0xf.ffff7f7e5aba735p-8 : xfail:ibm128-libgcc inexact-ok
+= y0 upward m68k96 0xd.340e7p-4 : -0xf.ffff7f7e5aba735p-8 : xfail:ibm128-libgcc inexact-ok
+= y0 downward binary128 0xd.340e7p-4 : -0xf.ffff7f7e5aba735ccb0b13b25de8p-8 : xfail:ibm128-libgcc inexact-ok
+= y0 tonearest binary128 0xd.340e7p-4 : -0xf.ffff7f7e5aba735ccb0b13b25dep-8 : inexact-ok
+= y0 towardzero binary128 0xd.340e7p-4 : -0xf.ffff7f7e5aba735ccb0b13b25dep-8 : xfail:ibm128-libgcc inexact-ok
+= y0 upward binary128 0xd.340e7p-4 : -0xf.ffff7f7e5aba735ccb0b13b25dep-8 : xfail:ibm128-libgcc inexact-ok
+= y0 downward ibm128 0xd.340e7p-4 : -0xf.ffff7f7e5aba735ccb0b13b26p-8 : xfail:ibm128-libgcc inexact-ok
+= y0 tonearest ibm128 0xd.340e7p-4 : -0xf.ffff7f7e5aba735ccb0b13b25cp-8 : inexact-ok
+= y0 towardzero ibm128 0xd.340e7p-4 : -0xf.ffff7f7e5aba735ccb0b13b25cp-8 : xfail:ibm128-libgcc inexact-ok
+= y0 upward ibm128 0xd.340e7p-4 : -0xf.ffff7f7e5aba735ccb0b13b25cp-8 : xfail:ibm128-libgcc inexact-ok
 y0 min
 = y0 downward binary32 0x4p-128 : -0x3.7ac89cp+4 : inexact-ok
 = y0 tonearest binary32 0x4p-128 : -0x3.7ac89cp+4 : inexact-ok
diff --git a/math/auto-libm-test-out-y1 b/math/auto-libm-test-out-y1
index af68e6c05a..ab920d1542 100644
--- a/math/auto-libm-test-out-y1
+++ b/math/auto-libm-test-out-y1
@@ -795,6 +795,81 @@  y1 0x1p-10000
 = y1 tonearest binary128 0x1p-10000 : -0xa.2f9836e4e441529fc2757d1f535p+9996 : inexact-ok
 = y1 towardzero binary128 0x1p-10000 : -0xa.2f9836e4e441529fc2757d1f5348p+9996 : inexact-ok
 = y1 upward binary128 0x1p-10000 : -0xa.2f9836e4e441529fc2757d1f5348p+9996 : inexact-ok
+y1 0x1.065194p+7 xfail-rounding:binary64 xfail-rounding:intel96 xfail-rounding:ibm128-libgcc
+= y1 downward binary32 0x8.328cap+4 : -0x3.2fe874p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y1 tonearest binary32 0x8.328cap+4 : -0x3.2fe87p-16 : inexact-ok
+= y1 towardzero binary32 0x8.328cap+4 : -0x3.2fe87p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y1 upward binary32 0x8.328cap+4 : -0x3.2fe87p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y1 downward binary64 0x8.328cap+4 : -0x3.2fe87001a1df4p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y1 tonearest binary64 0x8.328cap+4 : -0x3.2fe87001a1df4p-16 : inexact-ok
+= y1 towardzero binary64 0x8.328cap+4 : -0x3.2fe87001a1df2p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y1 upward binary64 0x8.328cap+4 : -0x3.2fe87001a1df2p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y1 downward intel96 0x8.328cap+4 : -0x3.2fe87001a1df3754p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y1 tonearest intel96 0x8.328cap+4 : -0x3.2fe87001a1df375p-16 : inexact-ok
+= y1 towardzero intel96 0x8.328cap+4 : -0x3.2fe87001a1df375p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y1 upward intel96 0x8.328cap+4 : -0x3.2fe87001a1df375p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y1 downward m68k96 0x8.328cap+4 : -0x3.2fe87001a1df3754p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y1 tonearest m68k96 0x8.328cap+4 : -0x3.2fe87001a1df375p-16 : inexact-ok
+= y1 towardzero m68k96 0x8.328cap+4 : -0x3.2fe87001a1df375p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y1 upward m68k96 0x8.328cap+4 : -0x3.2fe87001a1df375p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y1 downward binary128 0x8.328cap+4 : -0x3.2fe87001a1df375068d0356aecb2p-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y1 tonearest binary128 0x8.328cap+4 : -0x3.2fe87001a1df375068d0356aecb2p-16 : inexact-ok
+= y1 towardzero binary128 0x8.328cap+4 : -0x3.2fe87001a1df375068d0356aecbp-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y1 upward binary128 0x8.328cap+4 : -0x3.2fe87001a1df375068d0356aecbp-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y1 downward ibm128 0x8.328cap+4 : -0x3.2fe87001a1df375068d0356aedp-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y1 tonearest ibm128 0x8.328cap+4 : -0x3.2fe87001a1df375068d0356aedp-16 : inexact-ok
+= y1 towardzero ibm128 0x8.328cap+4 : -0x3.2fe87001a1df375068d0356aecp-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+= y1 upward ibm128 0x8.328cap+4 : -0x3.2fe87001a1df375068d0356aecp-16 : xfail:binary64 xfail:intel96 xfail:ibm128-libgcc inexact-ok
+y1 0x1.c1badep+0 xfail-rounding:ibm128-libgcc
+= y1 downward binary32 0x1.c1badep+0 : -0x3.ff6378p-4 : xfail:ibm128-libgcc inexact-ok
+= y1 tonearest binary32 0x1.c1badep+0 : -0x3.ff6374p-4 : inexact-ok
+= y1 towardzero binary32 0x1.c1badep+0 : -0x3.ff6374p-4 : xfail:ibm128-libgcc inexact-ok
+= y1 upward binary32 0x1.c1badep+0 : -0x3.ff6374p-4 : xfail:ibm128-libgcc inexact-ok
+= y1 downward binary64 0x1.c1badep+0 : -0x3.ff6375c9f4404p-4 : xfail:ibm128-libgcc inexact-ok
+= y1 tonearest binary64 0x1.c1badep+0 : -0x3.ff6375c9f4402p-4 : inexact-ok
+= y1 towardzero binary64 0x1.c1badep+0 : -0x3.ff6375c9f4402p-4 : xfail:ibm128-libgcc inexact-ok
+= y1 upward binary64 0x1.c1badep+0 : -0x3.ff6375c9f4402p-4 : xfail:ibm128-libgcc inexact-ok
+= y1 downward intel96 0x1.c1badep+0 : -0x3.ff6375c9f440230cp-4 : xfail:ibm128-libgcc inexact-ok
+= y1 tonearest intel96 0x1.c1badep+0 : -0x3.ff6375c9f440230cp-4 : inexact-ok
+= y1 towardzero intel96 0x1.c1badep+0 : -0x3.ff6375c9f4402308p-4 : xfail:ibm128-libgcc inexact-ok
+= y1 upward intel96 0x1.c1badep+0 : -0x3.ff6375c9f4402308p-4 : xfail:ibm128-libgcc inexact-ok
+= y1 downward m68k96 0x1.c1badep+0 : -0x3.ff6375c9f440230cp-4 : xfail:ibm128-libgcc inexact-ok
+= y1 tonearest m68k96 0x1.c1badep+0 : -0x3.ff6375c9f440230cp-4 : inexact-ok
+= y1 towardzero m68k96 0x1.c1badep+0 : -0x3.ff6375c9f4402308p-4 : xfail:ibm128-libgcc inexact-ok
+= y1 upward m68k96 0x1.c1badep+0 : -0x3.ff6375c9f4402308p-4 : xfail:ibm128-libgcc inexact-ok
+= y1 downward binary128 0x1.c1badep+0 : -0x3.ff6375c9f440230a8962842c1ebp-4 : xfail:ibm128-libgcc inexact-ok
+= y1 tonearest binary128 0x1.c1badep+0 : -0x3.ff6375c9f440230a8962842c1ebp-4 : inexact-ok
+= y1 towardzero binary128 0x1.c1badep+0 : -0x3.ff6375c9f440230a8962842c1eaep-4 : xfail:ibm128-libgcc inexact-ok
+= y1 upward binary128 0x1.c1badep+0 : -0x3.ff6375c9f440230a8962842c1eaep-4 : xfail:ibm128-libgcc inexact-ok
+= y1 downward ibm128 0x1.c1badep+0 : -0x3.ff6375c9f440230a8962842c1fp-4 : xfail:ibm128-libgcc inexact-ok
+= y1 tonearest ibm128 0x1.c1badep+0 : -0x3.ff6375c9f440230a8962842c1fp-4 : inexact-ok
+= y1 towardzero ibm128 0x1.c1badep+0 : -0x3.ff6375c9f440230a8962842c1ep-4 : xfail:ibm128-libgcc inexact-ok
+= y1 upward ibm128 0x1.c1badep+0 : -0x3.ff6375c9f440230a8962842c1ep-4 : xfail:ibm128-libgcc inexact-ok
+y1 0x1.c1bc2ep+0
+= y1 downward binary32 0x1.c1bc2ep+0 : -0x3.ff56acp-4 : inexact-ok
+= y1 tonearest binary32 0x1.c1bc2ep+0 : -0x3.ff56a8p-4 : inexact-ok
+= y1 towardzero binary32 0x1.c1bc2ep+0 : -0x3.ff56a8p-4 : inexact-ok
+= y1 upward binary32 0x1.c1bc2ep+0 : -0x3.ff56a8p-4 : inexact-ok
+= y1 downward binary64 0x1.c1bc2ep+0 : -0x3.ff56a991ca78ap-4 : inexact-ok
+= y1 tonearest binary64 0x1.c1bc2ep+0 : -0x3.ff56a991ca788p-4 : inexact-ok
+= y1 towardzero binary64 0x1.c1bc2ep+0 : -0x3.ff56a991ca788p-4 : inexact-ok
+= y1 upward binary64 0x1.c1bc2ep+0 : -0x3.ff56a991ca788p-4 : inexact-ok
+= y1 downward intel96 0x1.c1bc2ep+0 : -0x3.ff56a991ca788cd8p-4 : inexact-ok
+= y1 tonearest intel96 0x1.c1bc2ep+0 : -0x3.ff56a991ca788cd4p-4 : inexact-ok
+= y1 towardzero intel96 0x1.c1bc2ep+0 : -0x3.ff56a991ca788cd4p-4 : inexact-ok
+= y1 upward intel96 0x1.c1bc2ep+0 : -0x3.ff56a991ca788cd4p-4 : inexact-ok
+= y1 downward m68k96 0x1.c1bc2ep+0 : -0x3.ff56a991ca788cd8p-4 : inexact-ok
+= y1 tonearest m68k96 0x1.c1bc2ep+0 : -0x3.ff56a991ca788cd4p-4 : inexact-ok
+= y1 towardzero m68k96 0x1.c1bc2ep+0 : -0x3.ff56a991ca788cd4p-4 : inexact-ok
+= y1 upward m68k96 0x1.c1bc2ep+0 : -0x3.ff56a991ca788cd4p-4 : inexact-ok
+= y1 downward binary128 0x1.c1bc2ep+0 : -0x3.ff56a991ca788cd5084138201442p-4 : inexact-ok
+= y1 tonearest binary128 0x1.c1bc2ep+0 : -0x3.ff56a991ca788cd5084138201442p-4 : inexact-ok
+= y1 towardzero binary128 0x1.c1bc2ep+0 : -0x3.ff56a991ca788cd508413820144p-4 : inexact-ok
+= y1 upward binary128 0x1.c1bc2ep+0 : -0x3.ff56a991ca788cd508413820144p-4 : inexact-ok
+= y1 downward ibm128 0x1.c1bc2ep+0 : -0x3.ff56a991ca788cd50841382015p-4 : inexact-ok
+= y1 tonearest ibm128 0x1.c1bc2ep+0 : -0x3.ff56a991ca788cd50841382014p-4 : inexact-ok
+= y1 towardzero ibm128 0x1.c1bc2ep+0 : -0x3.ff56a991ca788cd50841382014p-4 : inexact-ok
+= y1 upward ibm128 0x1.c1bc2ep+0 : -0x3.ff56a991ca788cd50841382014p-4 : inexact-ok
 y1 min
 = y1 downward binary32 0x4p-128 : -0x2.8be61p+124 : inexact-ok
 = y1 tonearest binary32 0x4p-128 : -0x2.8be60cp+124 : inexact-ok
diff --git a/sysdeps/aarch64/libm-test-ulps b/sysdeps/aarch64/libm-test-ulps
index 21ff7dc5ce..a0329dea63 100644
--- a/sysdeps/aarch64/libm-test-ulps
+++ b/sysdeps/aarch64/libm-test-ulps
@@ -1066,44 +1066,44 @@  double: 1
 ldouble: 1
 
 Function: "j0":
-double: 2
-float: 8
+double: 3
+float: 9
 ldouble: 2
 
 Function: "j0_downward":
-double: 2
-float: 4
-ldouble: 4
+double: 6
+float: 9
+ldouble: 9
 
 Function: "j0_towardzero":
-double: 5
-float: 6
-ldouble: 4
+double: 7
+float: 9
+ldouble: 9
 
 Function: "j0_upward":
-double: 4
-float: 5
-ldouble: 5
+double: 9
+float: 8
+ldouble: 7
 
 Function: "j1":
-double: 2
-float: 8
+double: 4
+float: 9
 ldouble: 4
 
 Function: "j1_downward":
 double: 3
-float: 5
-ldouble: 4
+float: 8
+ldouble: 6
 
 Function: "j1_towardzero":
-double: 3
-float: 2
-ldouble: 4
+double: 4
+float: 8
+ldouble: 9
 
 Function: "j1_upward":
-double: 3
-float: 4
-ldouble: 3
+double: 9
+float: 9
+ldouble: 9
 
 Function: "jn":
 double: 4
@@ -1364,42 +1364,42 @@  ldouble: 4
 
 Function: "y0":
 double: 2
-float: 6
+float: 8
 ldouble: 3
 
 Function: "y0_downward":
 double: 3
-float: 4
-ldouble: 4
+float: 8
+ldouble: 7
 
 Function: "y0_towardzero":
 double: 3
-float: 3
+float: 8
 ldouble: 3
 
 Function: "y0_upward":
 double: 2
-float: 5
-ldouble: 3
+float: 8
+ldouble: 4
 
 Function: "y1":
 double: 3
-float: 2
-ldouble: 2
+float: 9
+ldouble: 5
 
 Function: "y1_downward":
-double: 3
-float: 2
-ldouble: 4
+double: 6
+float: 8
+ldouble: 5
 
 Function: "y1_towardzero":
 double: 3
-float: 2
+float: 9
 ldouble: 2
 
 Function: "y1_upward":
-double: 5
-float: 2
+double: 6
+float: 9
 ldouble: 5
 
 Function: "yn":
diff --git a/sysdeps/ieee754/flt-32/e_j0f.c b/sysdeps/ieee754/flt-32/e_j0f.c
index 5d29611eb7..462518c365 100644
--- a/sysdeps/ieee754/flt-32/e_j0f.c
+++ b/sysdeps/ieee754/flt-32/e_j0f.c
@@ -16,7 +16,9 @@ 
 #include <math.h>
 #include <math-barriers.h>
 #include <math_private.h>
+#include <fenv_private.h>
 #include <libm-alias-finite.h>
+#include <reduce_aux.h>
 
 static float pzerof(float), qzerof(float);
 
@@ -37,6 +39,218 @@  S04  =  1.1661400734e-09; /* 0x30a045e8 */
 
 static const float zero = 0.0;
 
+/* This is the nearest approximation of the first zero of j0.  */
+#define FIRST_ZERO_J0 0xf.26247p-28f
+
+#define SMALL_SIZE 64
+
+/* The following table contains successive zeros of j0 and degree-3
+   polynomial approximations of j0 around these zeros: Pj[0] for the first
+   zero (2.40482), Pj[1] for the second one (5.520078), and so on.
+   Each line contains:
+              {x0, xmid, x1, p0, p1, p2, p3}
+   where [x0,x1] is the interval around the zero, xmid is the binary32 number
+   closest to the zero, and p0+p1*x+p2*x^2+p3*x^3 is the approximation
+   polynomial.  Each polynomial was generated using Sollya on the interval
+   [x0,x1] around the corresponding zero where the error exceeds 9 ulps
+   for the alternate code.  Degree 3 is enough to get an error <= 9 ulps.
+*/
+static const float Pj[SMALL_SIZE][7] = {
+  /* The following polynomial was optimized by hand with respect to the one
+     generated by Sollya, to ensure the maximal error is at most 9 ulps,
+     both if the polynomial is evaluated with fma or not.  */
+  { 0x1.31e5c4p+1, 0x1.33d152p+1, 0x1.3b58dep+1, 0xf.2623fp-28,
+    -0x8.4e6d7p-4, 0x1.ba2aaap-4, 0xe.4b9ap-8 }, /* 0 */
+  { 0x1.60eafap+2, 0x1.6148f6p+2, 0x1.62955cp+2, 0x6.9205fp-28,
+    0x5.71b98p-4, -0x7.e3e798p-8, -0xd.87d1p-8 }, /* 1 */
+  { 0x1.14cde2p+3, 0x1.14eb56p+3, 0x1.1525c6p+3, 0x1.bcc1cap-24,
+    -0x4.57de6p-4, 0x4.03e7cp-8, 0xb.39a37p-8 }, /* 2 */
+  { 0x1.7931d8p+3, 0x1.79544p+3, 0x1.7998d6p+3, -0xf.2976fp-32,
+    0x3.b827ccp-4, -0x2.8603ep-8, -0x9.bf49bp-8 }, /* 3 */
+  { 0x1.ddb6d4p+3, 0x1.ddca14p+3, 0x1.ddf0c8p+3, -0x1.bd67d8p-28,
+    -0x3.4e03ap-4, 0x1.c562a2p-8, 0x8.90ec2p-8 }, /* 4 */
+  { 0x1.2118e4p+4, 0x1.212314p+4, 0x1.21375p+4, 0x1.62209cp-28,
+    0x3.00efecp-4, -0x1.5458dap-8, -0x8.10063p-8 }, /* 5 */
+  { 0x1.535d28p+4, 0x1.5362dep+4, 0x1.536e48p+4, -0x2.853f74p-24,
+    -0x2.c5b274p-4, 0x1.0b9db4p-8, 0x7.8c3578p-8 }, /* 6 */
+  { 0x1.859ddp+4, 0x1.85a3bap+4, 0x1.85aff4p+4, 0x2.19ed1cp-24,
+    0x2.96545cp-4, -0xd.997e6p-12, -0x6.d9af28p-8 }, /* 7 */
+  { 0x1.b7decap+4, 0x1.b7e54ap+4, 0x1.b7f038p+4, 0xe.959aep-28,
+    -0x2.6f5594p-4, 0xb.538dp-12, 0x7.003ea8p-8 }, /* 8 */
+  { 0x1.ea21c6p+4, 0x1.ea275ap+4, 0x1.ea337ap+4, 0x2.0c3964p-24,
+    0x2.4e80fcp-4, -0x9.a2216p-12, -0x6.61e0a8p-8 }, /* 9 */
+  { 0x1.0e3316p+5, 0x1.0e34e2p+5, 0x1.0e379ap+5, -0x3.642554p-24,
+    -0x2.325e48p-4, 0x8.4f49cp-12, 0x7.d37c3p-8 }, /* 10 */
+  { 0x1.275456p+5, 0x1.275638p+5, 0x1.2759e2p+5, 0x1.6c015ap-24,
+    0x2.19e7d8p-4, -0x7.4c1bf8p-12, -0x4.af7ef8p-8 }, /* 11 */
+  { 0x1.4075ecp+5, 0x1.4077a8p+5, 0x1.407b96p+5, -0x4.b18c9p-28,
+    -0x2.046174p-4, 0x6.705618p-12, 0x5.f2d28p-8 }, /* 12 */
+  { 0x1.59973p+5, 0x1.59992cp+5, 0x1.599b2ap+5, -0x1.8b8792p-24,
+    0x1.f13fbp-4, -0x5.c14938p-12, -0x5.73e0cp-8 }, /* 13 */
+  { 0x1.72b958p+5, 0x1.72bacp+5, 0x1.72bc5ap+5, 0x3.a26e0cp-24,
+    -0x1.e018dap-4, 0x5.30e8dp-12, 0x2.81099p-8 }, /* 14 */
+  { 0x1.8bdb4ap+5, 0x1.8bdc62p+5, 0x1.8bde7ep+5, -0x2.18fabcp-24,
+    0x1.d09b22p-4, -0x4.b0b688p-12, -0x5.5fd308p-8 }, /* 15 */
+  { 0x1.a4fcecp+5, 0x1.a4fe0ep+5, 0x1.a50042p+5, 0x3.2370e8p-24,
+    -0x1.c28614p-4, 0x4.4647e8p-12, 0x5.68a28p-8 }, /* 16 */
+  { 0x1.be1ebcp+5, 0x1.be1fc4p+5, 0x1.be21fp+5, -0x5.9eae3p-28,
+    0x1.b5a622p-4, -0x3.eb9054p-12, -0x5.12d8cp-8 }, /* 17 */
+  { 0x1.d7405p+5, 0x1.d7418p+5, 0x1.d74294p+5, 0x2.9fa1e8p-24,
+    -0x1.a9d184p-4, 0x3.9d1e7p-12, 0x4.33d058p-8 }, /* 18 */
+  { 0x1.f0624p+5, 0x1.f06344p+5, 0x1.f0645ep+5, 0x9.9ac67p-28,
+    0x1.9ee5eep-4, -0x3.5816e8p-12, -0x2.6e5004p-8 }, /* 19 */
+  { 0x1.04c22ep+6, 0x1.04c286p+6, 0x1.04c316p+6, 0xd.6ab94p-28,
+    -0x1.94c6f6p-4, 0x3.174efcp-12, 0x7.9a092p-8 }, /* 20 */
+  { 0x1.1153p+6, 0x1.11536cp+6, 0x1.11541p+6, -0x4.4cb2d8p-24,
+    0x1.8b5cccp-4, -0x2.e3c238p-12, -0x4.e5437p-8 }, /* 21 */
+  { 0x1.1de3d8p+6, 0x1.1de456p+6, 0x1.1de4dap+6, -0x4.4aa8c8p-24,
+    -0x1.829356p-4, 0x2.b45124p-12, 0x5.baf638p-8 }, /* 22 */
+  { 0x1.2a74f8p+6, 0x1.2a754p+6, 0x1.2a75bp+6, 0x2.077c38p-24,
+    0x1.7a597ep-4, -0x2.8a0414p-12, -0x2.838d3p-8 }, /* 23 */
+  { 0x1.3705d4p+6, 0x1.37062cp+6, 0x1.3706b2p+6, -0x2.6a6cd8p-24,
+    -0x1.72a09ap-4, 0x2.623a3cp-12, 0x5.5256a8p-8 }, /* 24 */
+  { 0x1.4396dp+6, 0x1.439718p+6, 0x1.43976ep+6, -0x5.08287p-24,
+    0x1.6b5c06p-4, -0x2.3da154p-12, -0x7.a2254p-8 }, /* 25 */
+  { 0x1.5027acp+6, 0x1.502808p+6, 0x1.50288cp+6, -0x3.4598dcp-24,
+    -0x1.6480c4p-4, 0x2.1cb944p-12, 0x7.27c77p-8 }, /* 26 */
+  { 0x1.5cb89ap+6, 0x1.5cb8f8p+6, 0x1.5cb97ep+6, 0x5.4e74bp-24,
+    0x1.5e0544p-4, -0x2.00b158p-12, -0x5.9bc4a8p-8 }, /* 27 */
+  { 0x1.69498cp+6, 0x1.6949e8p+6, 0x1.694a42p+6, -0x2.05751cp-24,
+    -0x1.57e12p-4, 0x1.e78edcp-12, 0x9.9667dp-8 }, /* 28 */
+  { 0x1.75da7ep+6, 0x1.75dadap+6, 0x1.75db3p+6, 0x4.c5e278p-24,
+    0x1.520ceep-4, -0x1.d0127cp-12, -0xd.62681p-8 }, /* 29 */
+  { 0x1.826b7ep+6, 0x1.826bccp+6, 0x1.826c2cp+6, -0x3.50e62cp-24,
+    -0x1.4c822p-4, 0x1.ba5832p-12, -0x1.eb2ee2p-8 }, /* 30 */
+  { 0x1.8efc84p+6, 0x1.8efcbep+6, 0x1.8efd16p+6, -0x1.c39f38p-24,
+    0x1.473ae6p-4, -0x1.a616c8p-12, 0xf.f352ap-12 }, /* 31 */
+  { 0x1.9b8d84p+6, 0x1.9b8db2p+6, 0x1.9b8e7p+6, -0x1.9245b6p-28,
+    -0x1.42320ap-4, 0x1.932a04p-12, 0x2.dc113cp-8 }, /* 32 */
+  { 0x1.a81e72p+6, 0x1.a81ea6p+6, 0x1.a81f04p+6, -0x1.0acf8p-24,
+    0x1.3d62e6p-4, -0x1.7c4b14p-12, -0x1.cfc5c2p-4 }, /* 33 */
+  { 0x1.b4af6ap+6, 0x1.b4af9ap+6, 0x1.b4afeep+6, 0x4.cd92d8p-24,
+    -0x1.38c94ap-4, 0x1.643154p-12, 0x1.4c2a06p-4 }, /* 34 */
+  { 0x1.c1406p+6, 0x1.c1409p+6, 0x1.c140cp+6, -0x1.37bf8ap-24,
+    0x1.34617p-4, -0x1.5f504ap-12, -0x1.e2d324p-4 }, /* 35 */
+  { 0x1.cdd154p+6, 0x1.cdd186p+6, 0x1.cdd1eap+6, -0x1.8f62dep-28,
+    -0x1.3027fp-4, 0x1.534a02p-12, 0x2.c7f144p-12 }, /* 36 */
+  { 0x1.da6248p+6, 0x1.da627cp+6, 0x1.da62e6p+6, -0x9.81e79p-28,
+    0x1.2c19b4p-4, -0x1.4b8288p-12, 0x7.2d8bap-8 }, /* 37 */
+  { 0x1.e6f33ep+6, 0x1.e6f372p+6, 0x1.e6f3a8p+6, 0x3.103b3p-24,
+    -0x1.2833eep-4, 0x1.36f4d2p-12, 0x9.29f91p-8 }, /* 38 */
+  { 0x1.f38434p+6, 0x1.f3846ap+6, 0x1.f384d8p+6, 0x2.07b058p-24,
+    0x1.24740ap-4, -0x1.2ee58ap-12, 0xd.f1393p-12 }, /* 39 */
+  { 0x1.000a98p+7, 0x1.000abp+7, 0x1.000ac8p+7, 0x3.87576cp-24,
+    -0x1.20d7b6p-4, 0x1.2083e2p-12, 0x3.9a7aap-8 }, /* 40 */
+  { 0x1.06531p+7, 0x1.06532cp+7, 0x1.065348p+7, -0x1.691ecp-24,
+    0x1.1d5ccap-4, -0x1.166726p-12, -0x1.e4af48p-8 }, /* 41 */
+  { 0x1.0c9b9ap+7, 0x1.0c9ba8p+7, 0x1.0c9bbep+7, 0x9.b406dp-28,
+    -0x1.1a015p-4, 0x1.038f9cp-12, -0x4.021058p-4 }, /* 42 */
+  { 0x1.12e412p+7, 0x1.12e424p+7, 0x1.12e436p+7, -0xf.bfd8fp-28,
+    0x1.16c37ap-4, -0x1.039edep-12, 0x1.f0033p-4 }, /* 43 */
+  { 0x1.192c92p+7, 0x1.192cap+7, 0x1.192cb6p+7, 0x2.6d50c8p-24,
+    -0x1.13a19ep-4, 0xf.9df8ap-16, 0x4.ecd978p-8 }, /* 44 */
+  { 0x1.1f7512p+7, 0x1.1f751cp+7, 0x1.1f753ap+7, -0x4.d475c8p-24,
+    0x1.109a32p-4, -0x1.04fb3ap-12, -0xd.c271p-12 }, /* 45 */
+  { 0x1.25bd8ep+7, 0x1.25bd98p+7, 0x1.25bdap+7, 0x8.1982p-24,
+    -0x1.0dabc8p-4, 0xe.88eabp-16, -0x4.ed75dp-4 }, /* 46 */
+  { 0x1.2c060cp+7, 0x1.2c0616p+7, 0x1.2c0644p+7, 0x4.864518p-24,
+    0x1.0ad51p-4, -0xe.27196p-16, 0xb.97a3ep-8 }, /* 47 */
+  { 0x1.324e86p+7, 0x1.324e92p+7, 0x1.324e9ep+7, 0x6.8917a8p-28,
+    -0x1.0814d4p-4, 0xd.4fe7ep-16, -0x6.8d8d6p-4 }, /* 48 */
+  { 0x1.389702p+7, 0x1.38970ep+7, 0x1.389728p+7, -0x5.fa18fp-24,
+    0x1.0569fp-4, -0xd.5b0d4p-16, 0x1.50353ap-4 }, /* 49 */
+  { 0x1.3edf84p+7, 0x1.3edf8cp+7, 0x1.3edfaap+7, -0x4.0e5c98p-24,
+    -0x1.02d354p-4, 0xb.7b255p-16, 0x7.8a916p-4 }, /* 50 */
+  { 0x1.4527fp+7, 0x1.452808p+7, 0x1.452812p+7, -0x2.c3ddbp-24,
+    0x1.005004p-4, -0xd.7729cp-16, -0x3.bcc354p-8 }, /* 51 */
+  { 0x1.4b7076p+7, 0x1.4b7086p+7, 0x1.4b70a4p+7, -0x5.d052p-24,
+    -0xf.ddf16p-8, 0xc.318c1p-16, 0x5.7947p-8 }, /* 52 */
+  { 0x1.51b8f4p+7, 0x1.51b902p+7, 0x1.51b90ep+7, -0x2.0b97dcp-24,
+    0xf.b7fafp-8, -0xc.1429dp-16, -0x3.43c36p-4 }, /* 53 */
+  { 0x1.580168p+7, 0x1.58018p+7, 0x1.580188p+7, -0x5.4aab5p-24,
+    -0xf.930fep-8, 0xa.ecc24p-16, 0x9.c62cdp-12 }, /* 54 */
+  { 0x1.5e49eap+7, 0x1.5e49fcp+7, 0x1.5e4a12p+7, -0x3.6dadd8p-24,
+    0xf.6f245p-8, -0xb.6816cp-16, 0xa.d731ap-8 }, /* 55 */
+  { 0x1.649272p+7, 0x1.64927ap+7, 0x1.64929p+7, -0x2.d7e038p-24,
+    -0xf.4c2cep-8, 0xb.118bep-16, 0xb.69a4ep-8 }, /* 56 */
+  { 0x1.6adae6p+7, 0x1.6adaf6p+7, 0x1.6adb04p+7, -0x6.977a1p-24,
+    0xf.2a1fp-8, -0xa.a8911p-16, -0x4.bf6d2p-8 }, /* 57 */
+  { 0x1.712366p+7, 0x1.712374p+7, 0x1.71238ep+7, 0x1.3cc95ep-24,
+    -0xf.08f0ap-8, 0x9.f0858p-16, 0x1.77f7f4p-4 }, /* 58 */
+  { 0x1.776beap+7, 0x1.776bf2p+7, 0x1.776bfap+7, 0x3.a4921p-24,
+    0xe.e8986p-8, -0xa.39dfp-16, -0x6.7ba3dp-4 }, /* 59 */
+  { 0x1.7db464p+7, 0x1.7db46ep+7, 0x1.7db476p+7, 0x6.b45a7p-24,
+    -0xe.c90d8p-8, 0xa.e586fp-16, -0x1.d66becp-4 }, /* 60 */
+  { 0x1.83fce2p+7, 0x1.83fcecp+7, 0x1.83fd0ep+7, -0x2.8f34a4p-24,
+    0xe.aa478p-8, -0x9.810bp-16, -0x3.a5f3fcp-8 }, /* 61 */
+  { 0x1.8a455cp+7, 0x1.8a456ap+7, 0x1.8a4588p+7, -0x1.325968p-24,
+    -0xe.8c3eap-8, 0x9.0a765p-16, 0x1.29a54ap-4 }, /* 62 */
+  { 0x1.908dd8p+7, 0x1.908de8p+7, 0x1.908df4p+7, 0x4.96b808p-24,
+    0xe.6eeb5p-8, -0x9.0251bp-16, 0x1.41a488p-4 }, /* 63 */
+};
+
+/* Formula page 5 of https://www.cl.cam.ac.uk/~jrh13/papers/bessel.pdf:
+   j0f(x) ~ sqrt(2/(pi*x))*beta0(x)*cos(x-pi/4-alpha0(x))
+   where beta0(x) = 1 - 1/(16*x^2) + 53/(512*x^4)
+   and alpha0(x) = 1/(8*x) - 25/(384*x^3).  */
+static float
+j0f_asympt (float x)
+{
+  /* The following code fails to give an error <= 9 ulps in only two cases,
+     for which we tabulate the result.  */
+  if (x == 0x1.4665d2p+24f)
+    return 0xa.50206p-52f;
+  if (x == 0x1.a9afdep+7f)
+    return 0xf.47039p-28f;
+  double y = 1.0 / (double) x;
+  double y2 = y * y;
+  double beta0 = 1.0f + y2 * (-0x1p-4f + 0x1.a8p-4 * y2);
+  double alpha0 = y * (0x2p-4 - 0x1.0aaaaap-4 * y2);
+  double h;
+  int n;
+  h = reduce_aux (x, &n, alpha0);
+  /* Now x - pi/4 - alpha0 = h + n*pi/2 mod (2*pi).  */
+  float xr = (float) h;
+  n = n & 3;
+  float cst = 0xc.c422ap-4; /* sqrt(2/pi) rounded to nearest  */
+  float t = cst / sqrtf (x) * (float) beta0;
+  if (n == 0)
+    return t * __cosf (xr);
+  else if (n == 2) /* cos(x+pi) = -cos(x)  */
+    return -t * __cosf (xr);
+  else if (n == 1) /* cos(x+pi/2) = -sin(x)  */
+    return -t * __sinf (xr);
+  else             /* cos(x+3pi/2) = sin(x)  */
+    return t * __sinf (xr);
+}
+
+/* Special code for x near a root of j0.
+   z is the value computed by the generic code.
+   For small x, we use a polynomial approximating j0 around its root.
+   For large x, we use an asymptotic formula (j0f_asympt).  */
+static float
+j0f_near_root (float x, float z)
+{
+  float index_f;
+  int index;
+
+  index_f = roundf ((x - FIRST_ZERO_J0) / (float) M_PI);
+  /* j0f_asympt fails to give an error <= 9 ulps for x=0x1.324e92p+7
+     (index 48) thus we can't reduce SMALL_SIZE below 49.  */
+  if (index_f >= SMALL_SIZE)
+    return j0f_asympt (x);
+  index = (int) index_f;
+  const float *p = Pj[index];
+  float x0 = p[0];
+  float x1 = p[2];
+  /* If not in the interval [x0,x1] around xmid, we return the value z.  */
+  if (! (x0 <= x && x <= x1))
+    return z;
+  float xmid = p[1];
+  float y = x - xmid;
+  return p[3] + y * (p[4] + y * (p[5] + y * p[6]));
+}
+
 float
 __ieee754_j0f(float x)
 {
@@ -48,39 +262,35 @@  __ieee754_j0f(float x)
 	if(ix>=0x7f800000) return one/(x*x);
 	x = fabsf(x);
 	if(ix >= 0x40000000) {	/* |x| >= 2.0 */
+                SET_RESTORE_ROUNDF (FE_TONEAREST);
 		__sincosf (x, &s, &c);
 		ss = s-c;
 		cc = s+c;
-		if(ix<0x7f000000) {  /* make sure x+x not overflow */
-		    z = -__cosf(x+x);
-		    if ((s*c)<zero) cc = z/ss;
-		    else	    ss = z/cc;
-		} else {
-		    /* We subtract (exactly) a value x0 such that
-		       cos(x0)+sin(x0) is very near to 0, and use the identity
-		       sin(x-x0) = sin(x)*cos(x0)-cos(x)*sin(x0) to get
-		       sin(x) + cos(x) with extra accuracy.  */
-		    float x0 = 0xe.d4108p+124f;
-		    float y = x - x0; /* exact  */
-		    /* sin(y) = sin(x)*cos(x0)-cos(x)*sin(x0)  */
-		    z = __sinf (y);
-		    float eps = 0x1.5f263ep-24f;
-		    /* cos(x0) ~ -sin(x0) + eps  */
-		    z += eps * __cosf (x);
-		    /* now z ~ (sin(x)-cos(x))*cos(x0)  */
-		    float cosx0 = -0xb.504f3p-4f;
-		    cc = z / cosx0;
-                }
+                if (ix >= 0x7f000000)
+		  /* x >= 2^127: use asymptotic expansion.  */
+                  return j0f_asympt (x);
+                /* Now we are sure that x+x cannot overflow.  */
+                z = -__cosf(x+x);
+                if ((s*c)<zero) cc = z/ss;
+                else	    ss = z/cc;
 	/*
 	 * j0(x) = 1/sqrt(pi) * (P(0,x)*cc - Q(0,x)*ss) / sqrt(x)
 	 * y0(x) = 1/sqrt(pi) * (P(0,x)*ss + Q(0,x)*cc) / sqrt(x)
 	 */
-		if(ix>0x5c000000) z = (invsqrtpi*cc)/sqrtf(x);
-		else {
-		    u = pzerof(x); v = qzerof(x);
-		    z = invsqrtpi*(u*cc-v*ss)/sqrtf(x);
-		}
-		return z;
+                if (ix <= 0x5c000000)
+                  {
+                    u = pzerof(x); v = qzerof(x);
+                    cc = u*cc-v*ss;
+                  }
+                z = (invsqrtpi * cc) / sqrtf(x);
+                /* The following threshold is optimal: for x=0x1.3b58dep+1
+                   and rounding upwards, |cc|=0x1.579b26p-4 and z is 10 ulps
+                   far from the correctly rounded value.  */
+                float threshold = 0x1.579b26p-4;
+                if (fabsf (cc) > threshold)
+                  return z;
+                else
+                  return j0f_near_root (x, z);
 	}
 	if(ix<0x39000000) {	/* |x| < 2**-13 */
 	    math_force_eval(huge+x);		/* raise inexact if x != 0 */
@@ -112,6 +322,219 @@  v02  =  7.6006865129e-05, /* 0x389f65e0 */
 v03  =  2.5915085189e-07, /* 0x348b216c */
 v04  =  4.4111031494e-10; /* 0x2ff280c2 */
 
+/* This is the nearest approximation of the first zero of y0.  */
+#define FIRST_ZERO_Y0 0xe.4c166p-4f
+
+/* The following table contains successive zeros of y0 and degree-3
+   polynomial approximations of y0 around these zeros: Py[0] for the first
+   zero (0.89358), Py[1] for the second one (3.957678), and so on.
+   Each line contains:
+              {x0, xmid, x1, p0, p1, p2, p3}
+   where [x0,x1] is the interval around the zero, xmid is the binary32 number
+   closest to the zero, and p0+p1*x+p2*x^2+p3*x^3 is the approximation
+   polynomial.  Each polynomial was generated using Sollya on the interval
+   [x0,x1] around the corresponding zero where the error exceeds 9 ulps
+   for the alternate code.  Degree 3 is enough, except for index 0 where we
+   use degree 5, and the coefficients of degree 4 and 5 are hard-coded in
+   y0f_near_root.
+*/
+static const float Py[SMALL_SIZE][7] = {
+  { 0x1.a681dap-1, 0x1.c982ecp-1, 0x1.ef6bcap-1, 0x3.274468p-28,
+    0xe.121b8p-4, -0x7.df8b3p-4, 0x3.877be4p-4
+    /*, -0x3.a46c9p-4, 0x3.735478p-4*/ }, /* 0 */
+  { 0x1.f957c6p+1, 0x1.fa9534p+1, 0x1.fd11b2p+1, 0xa.f1f83p-28,
+    -0x6.70d098p-4, 0xd.04d48p-8, 0xe.f61a9p-8 }, /* 1 */
+  { 0x1.c51832p+2, 0x1.c581dcp+2, 0x1.c65164p+2, -0x5.e2a51p-28,
+    0x4.cd3328p-4, -0x5.6bbe08p-8, -0xc.46d8p-8 }, /* 2 */
+  { 0x1.46fd84p+3, 0x1.471d74p+3, 0x1.475bfcp+3, -0x1.4b0aeep-24,
+    -0x3.fec6b8p-4, 0x3.2068a4p-8, 0xa.76e2dp-8 }, /* 3 */
+  { 0x1.ab7afap+3, 0x1.ab8e1cp+3, 0x1.abb294p+3, -0x8.179d7p-28,
+    0x3.7e6544p-4, -0x2.1799fp-8, -0x9.0e1c4p-8 }, /* 4 */
+  { 0x1.07f9aap+4, 0x1.0803c8p+4, 0x1.08170cp+4, -0x2.5b8078p-24,
+    -0x3.24b868p-4, 0x1.8631ecp-8, 0x8.3cb46p-8 }, /* 5 */
+  { 0x1.3a38eap+4, 0x1.3a42cep+4, 0x1.3a4d8ap+4, 0x1.cd304ap-28,
+    0x2.e189ecp-4, -0x1.2c6954p-8, -0x7.8178ep-8 }, /* 6 */
+  { 0x1.6c7d42p+4, 0x1.6c833p+4, 0x1.6c99fp+4, -0x6.c63f1p-28,
+    -0x2.acc9a8p-4, 0xf.09e31p-12, 0x7.0b5ab8p-8 }, /* 7 */
+  { 0x1.9ebec4p+4, 0x1.9ec47p+4, 0x1.9ed016p+4, 0x1.e53838p-24,
+    0x2.81f2p-4, -0xc.5ff51p-12, -0x7.05ep-8 }, /* 8 */
+  { 0x1.d1008ep+4, 0x1.d10644p+4, 0x1.d11262p+4, 0x1.636feep-24,
+    -0x2.5e40dcp-4, 0xa.6f81dp-12, 0x5.ff6p-8 }, /* 9 */
+  { 0x1.01a27cp+5, 0x1.01a442p+5, 0x1.01a924p+5, -0x4.04e1bp-28,
+    0x2.3febd8p-4, -0x8.f11e2p-12, -0x6.0111ap-8 }, /* 10 */
+  { 0x1.1ac3bcp+5, 0x1.1ac588p+5, 0x1.1ac912p+5, 0x3.6063d8p-24,
+    -0x2.25baacp-4, 0x7.c93cdp-12, 0x4.e7577p-8 }, /* 11 */
+  { 0x1.33e508p+5, 0x1.33e6ecp+5, 0x1.33ea1ap+5, -0x3.f39ebcp-24,
+    0x2.0ed04cp-4, -0x6.d9434p-12, -0x4.fc0b7p-8 }, /* 12 */
+  { 0x1.4d0666p+5, 0x1.4d0868p+5, 0x1.4d0c14p+5, -0x4.ea23p-28,
+    -0x1.fa8b4p-4, 0x6.1470e8p-12, 0x5.97f71p-8 }, /* 13 */
+  { 0x1.6628b8p+5, 0x1.6629f4p+5, 0x1.662e0ep+5, -0x3.5df0c8p-24,
+    0x1.e8727ep-4, -0x5.76a038p-12, -0x4.ee37c8p-8 }, /* 14 */
+  { 0x1.7f4a7cp+5, 0x1.7f4b9p+5, 0x1.7f4daap+5, 0x1.1ef09ep-24,
+    -0x1.d8293ap-4, 0x4.ed8a28p-12, 0x4.d43708p-8 }, /* 15 */
+  { 0x1.986c5cp+5, 0x1.986d38p+5, 0x1.986f6p+5, 0x1.b70cecp-24,
+    0x1.c967p-4, -0x4.7a70b8p-12, -0x5.6840e8p-8 }, /* 16 */
+  { 0x1.b18dcap+5, 0x1.b18ee8p+5, 0x1.b19122p+5, 0x1.abaadcp-24,
+    -0x1.bbf246p-4, 0x4.1a35bp-12, 0x3.c2d46p-8 }, /* 17 */
+  { 0x1.caaf86p+5, 0x1.cab0a2p+5, 0x1.cab2fep+5, 0x1.63989ep-24,
+    0x1.af9cb4p-4, -0x3.c2f2dcp-12, -0x4.cf8108p-8 }, /* 18 */
+  { 0x1.e3d146p+5, 0x1.e3d262p+5, 0x1.e3d492p+5, -0x1.68a8ecp-24,
+    -0x1.a4407ep-4, 0x3.7733ecp-12, 0x5.97916p-8 }, /* 19 */
+  { 0x1.fcf316p+5, 0x1.fcf428p+5, 0x1.fcf59ap+5, 0x1.e1bb5p-24,
+    0x1.99be74p-4, -0x3.37210cp-12, -0x5.d19bf8p-8 }, /* 20 */
+  { 0x1.0b0a7cp+6, 0x1.0b0afap+6, 0x1.0b0b9cp+6, -0x5.5bbcfp-24,
+    -0x1.8ffc9ap-4, 0x2.ffe638p-12, 0x2.ed28e8p-8 }, /* 21 */
+  { 0x1.179b66p+6, 0x1.179bep+6, 0x1.179d0ap+6, -0x4.9e34a8p-24,
+    0x1.86e51cp-4, -0x2.cc7a68p-12, -0x3.3642c4p-8 }, /* 22 */
+  { 0x1.242c5cp+6, 0x1.242ccap+6, 0x1.242d68p+6, 0x1.966706p-24,
+    -0x1.7e657p-4, 0x2.9aed4cp-12, 0x7.b87a58p-8 }, /* 23 */
+  { 0x1.30bd62p+6, 0x1.30bdb6p+6, 0x1.30beb2p+6, 0x3.4b3b68p-24,
+    0x1.766dc2p-4, -0x2.72651cp-12, -0x3.e347f8p-8 }, /* 24 */
+  { 0x1.3d4e56p+6, 0x1.3d4ea2p+6, 0x1.3d4f2ep+6, 0x6.a99008p-28,
+    -0x1.6ef07ep-4, 0x2.53aec4p-12, 0x2.9e3d88p-12 }, /* 25 */
+  { 0x1.49df38p+6, 0x1.49df9p+6, 0x1.49e042p+6, -0x7.a9fa6p-32,
+    0x1.67e1dap-4, -0x2.324d7p-12, -0xc.0e669p-12 }, /* 26 */
+  { 0x1.56702ep+6, 0x1.56708p+6, 0x1.567116p+6, -0x5.026808p-24,
+    -0x1.613798p-4, 0x2.114594p-12, 0x1.a22402p-8 }, /* 27 */
+  { 0x1.630126p+6, 0x1.63017p+6, 0x1.630226p+6, 0x4.46aa2p-24,
+    0x1.5ae8c2p-4, -0x1.f4aaa4p-12, -0x3.58593cp-8 }, /* 28 */
+  { 0x1.6f9234p+6, 0x1.6f926p+6, 0x1.6f92b2p+6, 0x1.5cfccp-24,
+    -0x1.54ed76p-4, 0x1.dd540ap-12, -0xb.e9429p-12 }, /* 29 */
+  { 0x1.7c22fep+6, 0x1.7c2352p+6, 0x1.7c23c2p+6, -0xb.4dc4cp-28,
+    0x1.4f3ebcp-4, -0x1.c463fp-12, -0x1.e94c54p-8 }, /* 30 */
+  { 0x1.88b412p+6, 0x1.88b444p+6, 0x1.88b50ap+6, 0x3.f5343p-24,
+    -0x1.49d668p-4, 0x1.a53f24p-12, 0x5.128198p-8 }, /* 31 */
+  { 0x1.9544dcp+6, 0x1.954538p+6, 0x1.95459p+6, -0x6.e6f32p-28,
+    0x1.44aefap-4, -0x1.9a6ef8p-12, -0x6.c639cp-8 }, /* 32 */
+  { 0x1.a1d5fap+6, 0x1.a1d62cp+6, 0x1.a1d674p+6, 0x1.f359c2p-28,
+    -0x1.3fc386p-4, 0x1.887ebep-12, 0x1.6c813cp-8 }, /* 33 */
+  { 0x1.ae66cp+6, 0x1.ae672p+6, 0x1.ae6788p+6, -0x2.9de748p-24,
+    0x1.3b0fa4p-4, -0x1.777f26p-12, 0x1.c128ccp-8 }, /* 34 */
+  { 0x1.baf7c2p+6, 0x1.baf816p+6, 0x1.baf86cp+6, -0x2.24ccc8p-24,
+    -0x1.368f5cp-4, 0x1.62bd9ep-12, 0xa.df002p-8 }, /* 35 */
+  { 0x1.c788dap+6, 0x1.c7890cp+6, 0x1.c7896cp+6, 0x4.7dcea8p-24,
+    0x1.323f16p-4, -0x1.61abf4p-12, 0xa.ad73ep-8 }, /* 36 */
+  { 0x1.d419ccp+6, 0x1.d41a02p+6, 0x1.d41a68p+6, -0x4.b538p-24,
+    -0x1.2e1b98p-4, 0x1.4a4d64p-12, 0x3.a47674p-8 }, /* 37 */
+  { 0x1.e0aacep+6, 0x1.e0aaf8p+6, 0x1.e0ab5ep+6, 0x3.09dc4cp-24,
+    0x1.2a21ecp-4, -0x1.3fa20cp-12, 0x2.216e8cp-8 }, /* 38 */
+  { 0x1.ed3bb8p+6, 0x1.ed3beep+6, 0x1.ed3c56p+6, 0x4.d5a58p-28,
+    -0x1.264f66p-4, 0x1.32c4cep-12, 0x1.53cbb4p-8 }, /* 39 */
+  { 0x1.f9ccaep+6, 0x1.f9cce6p+6, 0x1.f9cd52p+6, 0x3.f4c44cp-24,
+    0x1.22a192p-4, -0x1.1f8514p-12, -0xc.0de32p-8 }, /* 40 */
+  { 0x1.032ed6p+7, 0x1.032eeep+7, 0x1.032f0cp+7, 0x2.4beae8p-24,
+    -0x1.1f1634p-4, 0x1.171664p-12, 0x1.72a654p-4 }, /* 41 */
+  { 0x1.097756p+7, 0x1.09776ap+7, 0x1.09779cp+7, -0xd.a581ep-28,
+    0x1.1bab3cp-4, -0xf.9f507p-16, -0xc.ba2d4p-8 }, /* 42 */
+  { 0x1.0fbfdp+7, 0x1.0fbfe6p+7, 0x1.0fbff6p+7, 0xa.7c0bdp-28,
+    -0x1.185eccp-4, 0x1.01d7dep-12, -0x1.a2186ep-4 }, /* 43 */
+  { 0x1.160856p+7, 0x1.160862p+7, 0x1.16087ap+7, -0x1.9452ecp-24,
+    0x1.152f26p-4, -0x1.07b4aap-12, 0x1.6bbd7ep-4 }, /* 44 */
+  { 0x1.1c50dp+7, 0x1.1c50dep+7, 0x1.1c5118p+7, 0x3.83b7b8p-24,
+    -0x1.121ab2p-4, 0x1.0e938cp-12, -0x5.1a6dfp-8 }, /* 45 */
+  { 0x1.22995p+7, 0x1.22995ap+7, 0x1.229976p+7, -0x6.5ca3a8p-24,
+    0x1.0f1ff2p-4, -0xe.f198p-16, -0x3.8e98b8p-8 }, /* 46 */
+  { 0x1.28e1ccp+7, 0x1.28e1d8p+7, 0x1.28e1f4p+7, -0x6.bb61ap-24,
+    -0x1.0c3d8ap-4, 0xf.a14b9p-16, 0x9.81e82p-4 }, /* 47 */
+  { 0x1.2f2a48p+7, 0x1.2f2a54p+7, 0x1.2f2a74p+7, 0x2.2438p-24,
+    0x1.097236p-4, -0xd.fed5ep-16, -0x3.19eb5cp-8 }, /* 48 */
+  { 0x1.3572b8p+7, 0x1.3572dp+7, 0x1.3572ecp+7, 0x3.1e0054p-24,
+    -0x1.06bcc8p-4, 0xd.d2596p-16, -0x1.67e00ap-4 }, /* 49 */
+  { 0x1.3bbb3ep+7, 0x1.3bbb4ep+7, 0x1.3bbb6ap+7, 0x7.46c908p-24,
+    0x1.041c28p-4, -0xd.04045p-16, -0x8.fb297p-8 }, /* 50 */
+  { 0x1.4203aep+7, 0x1.4203cap+7, 0x1.4203e6p+7, -0xb.4f158p-28,
+    -0x1.018f52p-4, 0xc.ccf6fp-16, 0x1.4d5dp-4 }, /* 51 */
+  { 0x1.484c38p+7, 0x1.484c46p+7, 0x1.484c56p+7, -0x6.5a89c8p-24,
+    0xf.f155p-8, -0xc.5d21dp-16, -0xd.aca34p-8 }, /* 52 */
+  { 0x1.4e94b8p+7, 0x1.4e94c4p+7, 0x1.4e94d4p+7, -0x1.ef16c8p-24,
+    -0xf.cad3fp-8, 0xb.d75f8p-16, 0x1.f36732p-4 }, /* 53 */
+  { 0x1.54dd36p+7, 0x1.54dd4p+7, 0x1.54dd52p+7, -0x6.1e7b68p-24,
+    0xf.a564cp-8, -0xb.ec1cfp-16, 0xe.e7421p-8 }, /* 54 */
+  { 0x1.5b25aep+7, 0x1.5b25bep+7, 0x1.5b25d4p+7, -0xf.8c858p-28,
+    -0xf.80faep-8, 0xb.8b6c5p-16, -0x5.835ed8p-8 }, /* 55 */
+  { 0x1.616e34p+7, 0x1.616e3cp+7, 0x1.616e4ep+7, 0x7.75d858p-24,
+    0xf.5d8abp-8, -0xb.b3779p-16, 0x2.40b948p-4 }, /* 56 */
+  { 0x1.67b6bp+7, 0x1.67b6b8p+7, 0x1.67b6dp+7, 0x1.d78632p-24,
+    -0xf.3b096p-8, 0xa.daf89p-16, 0x1.aa8548p-8 }, /* 57 */
+  { 0x1.6dff28p+7, 0x1.6dff36p+7, 0x1.6dff54p+7, 0x3.b24794p-24,
+    0xf.196c7p-8, -0xb.1afe1p-16, -0x1.77538cp-8 }, /* 58 */
+  { 0x1.7447a2p+7, 0x1.7447b2p+7, 0x1.7447cap+7, 0x6.39cbc8p-24,
+    -0xe.f8aa5p-8, 0xa.50daap-16, 0x1.9592c2p-8 }, /* 59 */
+  { 0x1.7a902p+7, 0x1.7a903p+7, 0x1.7a903ep+7, -0x1.820e3ap-24,
+    0xe.d8b9dp-8, -0xa.998cp-16, -0x2.c35d78p-4 }, /* 60 */
+  { 0x1.80d89ep+7, 0x1.80d8aep+7, 0x1.80d8bep+7, -0x2.c7e038p-24,
+    -0xe.b9925p-8, 0x9.ce06p-16, -0x2.2b3054p-4 }, /* 61 */
+  { 0x1.87211cp+7, 0x1.87212cp+7, 0x1.872144p+7, 0x6.ab31c8p-24,
+    0xe.9b2bep-8, -0x9.4de7p-16, -0x1.32cb5ep-4 }, /* 62 */
+  { 0x1.8d699ap+7, 0x1.8d69a8p+7, 0x1.8d69bp+7, 0x4.4ef25p-24,
+    -0xe.7d7ecp-8, 0x9.a0f1ep-16, 0x1.6ac076p-4 }, /* 63 */
+};
+
+/* Formula page 5 of https://www.cl.cam.ac.uk/~jrh13/papers/bessel.pdf:
+   y0(x) ~ sqrt(2/(pi*x))*beta0(x)*sin(x-pi/4-alpha0(x))
+   where beta0(x) = 1 - 1/(16*x^2) + 53/(512*x^4)
+   and alpha0(x) = 1/(8*x) - 25/(384*x^3).  */
+static float
+y0f_asympt (float x)
+{
+  /* The following code fails to give an error <= 9 ulps in only two cases,
+     for which we tabulate the correctly-rounded result.  */
+  if (x == 0x1.bfad96p+7f)
+    return -0x7.f32bdp-32f;
+  if (x == 0x1.2e2a42p+17f)
+    return 0x1.a48974p-40f;
+  double y = 1.0 / (double) x;
+  double y2 = y * y;
+  double beta0 = 1.0f + y2 * (-0x1p-4f + 0x1.a8p-4 * y2);
+  double alpha0 = y * (0x2p-4 - 0x1.0aaaaap-4 * y2);
+  double h;
+  int n;
+  h = reduce_aux (x, &n, alpha0);
+  /* Now x - pi/4 - alpha0 = h + n*pi/2 mod (2*pi).  */
+  float xr = (float) h;
+  n = n & 3;
+  float cst = 0xc.c422ap-4; /* sqrt(2/pi) rounded to nearest  */
+  float t = cst / sqrtf (x) * (float) beta0;
+  if (n == 0)
+    return t * __sinf (xr);
+  else if (n == 2) /* sin(x+pi) = -sin(x)  */
+    return -t * __sinf (xr);
+  else if (n == 1) /* sin(x+pi/2) = cos(x)  */
+    return t * __cosf (xr);
+  else             /* sin(x+3pi/2) = -cos(x)  */
+    return -t * __cosf (xr);
+}
+
+/* Special code for x near a root of y0.
+   z is the value computed by the generic code.
+   For small x, use a polynomial approximating y0 around its root.
+   For large x, use an asymptotic formula (y0f_asympt).  */
+static float
+y0f_near_root (float x, float z)
+{
+  float index_f;
+  int index;
+
+  index_f = roundf ((x - FIRST_ZERO_Y0) / (float) M_PI);
+  if (index_f >= SMALL_SIZE)
+    return y0f_asympt (x);
+  index = (int) index_f;
+  const float *p = Py[index];
+  float x0 = p[0];
+  float x1 = p[2];
+  /* If not in the interval [x0,x1] around xmid, return the value z.  */
+  if (! (x0 <= x && x <= x1))
+    return z;
+  float xmid = p[1];
+  float y = x - xmid;
+  /* For degree 0 use a degree-5 polynomial, where the coefficients of
+     degree 4 and 5 are hard-coded.  */
+  float p6 = (index > 0) ? p[6]
+    : p[6] + y * (-0x3.a46c9p-4 + y * 0x3.735478p-4);
+  float res = p[3] + y * (p[4] + y * (p[5] + y * p6));
+  return res;
+}
+
 float
 __ieee754_y0f(float x)
 {
@@ -124,7 +547,9 @@  __ieee754_y0f(float x)
 	if(ix>=0x7f800000) return  one/(x+x*x);
 	if(ix==0) return -1/zero; /* -inf and divide by zero exception.  */
 	if(hx<0) return zero/(zero*x);
-	if(ix >= 0x40000000) {  /* |x| >= 2.0 */
+	if(ix >= 0x40000000 || (0x3f5340ed <= ix && ix <= 0x3f77b5e5)) {
+          /* |x| >= 2.0 or
+	     0x1.a681dap-1 <= |x| <= 0x1.ef6bcap-1 (around 1st zero) */
 	/* y0(x) = sqrt(2/(pi*x))*(p0(x)*sin(x0)+q0(x)*cos(x0))
 	 * where x0 = x-pi/4
 	 *      Better formula:
@@ -136,6 +561,7 @@  __ieee754_y0f(float x)
 	 *              sin(x) +- cos(x) = -cos(2x)/(sin(x) -+ cos(x))
 	 * to compute the worse one.
 	 */
+                SET_RESTORE_ROUNDF (FE_TONEAREST);
 		__sincosf (x, &s, &c);
 		ss = s-c;
 		cc = s+c;
@@ -143,17 +569,26 @@  __ieee754_y0f(float x)
 	 * j0(x) = 1/sqrt(pi) * (P(0,x)*cc - Q(0,x)*ss) / sqrt(x)
 	 * y0(x) = 1/sqrt(pi) * (P(0,x)*ss + Q(0,x)*cc) / sqrt(x)
 	 */
-		if(ix<0x7f000000) {  /* make sure x+x not overflow */
-		    z = -__cosf(x+x);
-		    if ((s*c)<zero) cc = z/ss;
-		    else            ss = z/cc;
-		}
-		if(ix>0x5c000000) z = (invsqrtpi*ss)/sqrtf(x);
-		else {
-		    u = pzerof(x); v = qzerof(x);
-		    z = invsqrtpi*(u*ss+v*cc)/sqrtf(x);
-		}
-		return z;
+                if (ix >= 0x7f000000)
+		  /* x >= 2^127: use asymptotic expansion.  */
+                  return y0f_asympt (x);
+                /* Now we are sure that x+x cannot overflow.  */
+                z = -__cosf(x+x);
+                if ((s*c)<zero) cc = z/ss;
+                else            ss = z/cc;
+                if (ix <= 0x5c000000)
+                  {
+                    u = pzerof(x); v = qzerof(x);
+                    ss = u*ss+v*cc;
+                  }
+                z = (invsqrtpi*ss)/sqrtf(x);
+                /* The following threshold is optimal (determined on
+                   aarch64-linux-gnu).  */
+                float threshold = 0x1.be585ap-4;
+                if (fabsf (ss) > threshold)
+                  return z;
+                else
+                  return y0f_near_root (x, z);
 	}
 	if(ix<=0x39800000) {	/* x < 2**-13 */
 	    return(u00 + tpi*__ieee754_logf(x));
@@ -165,7 +600,7 @@  __ieee754_y0f(float x)
 }
 libm_alias_finite (__ieee754_y0f, __y0f)
 
-/* The asymptotic expansions of pzero is
+/* The asymptotic expansion of pzero is
  *	1 - 9/128 s^2 + 11025/98304 s^4 - ...,	where s = 1/x.
  * For x >= 2, We approximate pzero by
  *	pzero(x) = 1 + (R/S)
@@ -257,7 +692,7 @@  pzerof(float x)
 }
 
 
-/* For x >= 8, the asymptotic expansions of qzero is
+/* For x >= 8, the asymptotic expansion of qzero is
  *	-1/8 s + 75/1024 s^3 - ..., where s = 1/x.
  * We approximate pzero by
  *	qzero(x) = s*(-1.25 + (R/S))
diff --git a/sysdeps/ieee754/flt-32/e_j1f.c b/sysdeps/ieee754/flt-32/e_j1f.c
index ac5bb76828..f10011e92b 100644
--- a/sysdeps/ieee754/flt-32/e_j1f.c
+++ b/sysdeps/ieee754/flt-32/e_j1f.c
@@ -21,6 +21,7 @@ 
 #include <fenv_private.h>
 #include <math-underflow.h>
 #include <libm-alias-finite.h>
+#include <reduce_aux.h>
 
 static float ponef(float), qonef(float);
 
@@ -42,6 +43,223 @@  s05  =  1.2354227016e-11; /* 0x2d59567e */
 
 static const float zero    = 0.0;
 
+/* This is the nearest approximation of the first positive zero of j1.  */
+#define FIRST_ZERO_J1 0x3.d4eabp+0f
+
+#define SMALL_SIZE 64
+
+/* The following table contains successive zeros of j1 and degree-3
+   polynomial approximations of j1 around these zeros: Pj[0] for the first
+   positive zero (3.831705), Pj[1] for the second one (7.015586), and so on.
+   Each line contains:
+              {x0, xmid, x1, p0, p1, p2, p3}
+   where [x0,x1] is the interval around the zero, xmid is the binary32 number
+   closest to the zero, and p0+p1*x+p2*x^2+p3*x^3 is the approximation
+   polynomial.  Each polynomial was generated using Sollya on the interval
+   [x0,x1] around the corresponding zero where the error exceeds 9 ulps
+   for the alternate code.  Degree 3 is enough to get an error at most
+   9 ulps, except around the first zero.
+*/
+static const float Pj[SMALL_SIZE][7] = {
+  /* For index 0, we use a degree-4 polynomial generated by Sollya, with the
+     coefficient of degree 4 hard-coded in j1f_near_root().  */
+  { 0x1.e09e5ep+1, 0x1.ea7558p+1, 0x1.ef7352p+1, -0x8.4f069p-28,
+    -0x6.71b3d8p-4, 0xd.744a2p-8, 0xd.acd9p-8/*, -0x1.3e51aap-8*/ }, /* 0 */
+  { 0x1.bdb4c2p+2, 0x1.c0ff6p+2, 0x1.c27a8cp+2, 0xe.c2858p-28,
+    0x4.cd464p-4, -0x5.79b71p-8, -0xc.11124p-8 }, /* 1 */
+  { 0x1.43b214p+3, 0x1.458d0ep+3, 0x1.460ccep+3, -0x1.e7acecp-24,
+    -0x3.feca9p-4, 0x3.2470f8p-8, 0xa.625b7p-8 }, /* 2 */
+  { 0x1.a9c98p+3, 0x1.aa5bbp+3, 0x1.aaa4d8p+3, 0x1.698158p-24,
+    0x3.7e666cp-4, -0x2.1900ap-8, -0x9.2755p-8 }, /* 3 */
+  { 0x1.073be4p+4, 0x1.0787b4p+4, 0x1.07aed8p+4, -0x1.f5f658p-24,
+    -0x3.24b8ep-4, 0x1.86e35cp-8, 0x8.4e4bbp-8 }, /* 4 */
+  { 0x1.39ae2ap+4, 0x1.39da8ep+4, 0x1.39f3dap+4, -0x1.4e744p-24,
+    0x2.e18a24p-4, -0x1.2ccd16p-8, -0x7.a27ep-8 }, /* 5 */
+  { 0x1.6bfa46p+4, 0x1.6c294ep+4, 0x1.6c412p+4, 0xa.3fb7fp-28,
+    -0x2.acc9c4p-4, 0xf.0b783p-12, 0x7.1c0d3p-8 }, /* 6 */
+  { 0x1.9e42bep+4, 0x1.9e757p+4, 0x1.9e876ep+4, -0x2.29f6f4p-24,
+    0x2.81f21p-4, -0xc.641bp-12, -0x6.a7ea58p-8 }, /* 7 */
+  { 0x1.d08a3ep+4, 0x1.d0bfdp+4, 0x1.d0cd3cp+4, -0x1.b5d196p-24,
+    -0x2.5e40e4p-4, 0xa.7059fp-12, 0x6.4d6bfp-8 }, /* 8 */
+  { 0x1.017794p+5, 0x1.018476p+5, 0x1.018b8cp+5, -0x4.0e001p-24,
+    0x2.3febep-4, -0x8.f23aap-12, -0x6.0102cp-8 }, /* 9 */
+  { 0x1.1a9e78p+5, 0x1.1aa89p+5, 0x1.1aaf88p+5, 0x3.b26f2p-24,
+    -0x2.25babp-4, 0x7.c6d948p-12, 0x5.a1d988p-8 }, /* 10 */
+  { 0x1.33bddep+5, 0x1.33cc52p+5, 0x1.33d2e4p+5, -0xf.c8cdap-28,
+    0x2.0ed05p-4, -0x6.d97dbp-12, -0x5.8da498p-8 }, /* 11 */
+  { 0x1.4ce7cp+5, 0x1.4cefdp+5, 0x1.4cf7d4p+5, -0x3.9940e4p-24,
+    -0x1.fa8b4p-4, 0x6.16108p-12, 0x5.4355e8p-8 }, /* 12 */
+  { 0x1.6603e8p+5, 0x1.661316p+5, 0x1.66173ap+5, 0x9.da15dp-28,
+    0x1.e8727ep-4, -0x5.742468p-12, -0x5.117c28p-8 }, /* 13 */
+  { 0x1.7f2ebcp+5, 0x1.7f3632p+5, 0x1.7f3a7ep+5, -0x3.39b218p-24,
+    -0x1.d8293ap-4, 0x4.ee3348p-12, 0x4.f9bep-8 }, /* 14 */
+  { 0x1.9850e6p+5, 0x1.985928p+5, 0x1.985d9ep+5, -0x3.7b5108p-24,
+    0x1.c96702p-4, -0x4.7b0d08p-12, -0x4.c784a8p-8 }, /* 15 */
+  { 0x1.b172e8p+5, 0x1.b17c04p+5, 0x1.b1805cp+5, -0x1.91e43ep-24,
+    -0x1.bbf246p-4, 0x4.18ad78p-12, 0x4.9bfae8p-8 }, /* 16 */
+  { 0x1.ca955ap+5, 0x1.ca9ec6p+5, 0x1.caa2a4p+5, 0x1.28453cp-24,
+    0x1.af9cb4p-4, -0x3.c3a494p-12, -0x4.78b69p-8 }, /* 17 */
+  { 0x1.e3bc94p+5, 0x1.e3c174p+5, 0x1.e3c64p+5, -0x2.e7fef4p-24,
+    -0x1.a4407ep-4, 0x3.79b228p-12, 0x4.874f7p-8 }, /* 18 */
+  { 0x1.fcdf16p+5, 0x1.fce40ep+5, 0x1.fce71p+5, -0x3.23b2fcp-24,
+    0x1.99be76p-4, -0x3.39ad7cp-12, -0x4.92a55p-8 }, /* 19 */
+  { 0x1.0afe34p+6, 0x1.0b034ep+6, 0x1.0b054ap+6, -0xd.19e93p-28,
+    -0x1.8ffc9cp-4, 0x2.fee7f8p-12, 0x4.2d33b8p-8 }, /* 20 */
+  { 0x1.179344p+6, 0x1.17948ep+6, 0x1.1795bp+6, 0x1.c2ac48p-24,
+    0x1.86e51cp-4, -0x2.cc5abp-12, -0x4.866d08p-8 }, /* 21 */
+  { 0x1.24231ep+6, 0x1.2425c8p+6, 0x1.2426e2p+6, -0xd.31027p-28,
+    -0x1.7e656ep-4, 0x2.9db23cp-12, 0x3.cc63c8p-8 }, /* 22 */
+  { 0x1.30b5a8p+6, 0x1.30b6fep+6, 0x1.30b84ep+6, 0x5.b5e53p-24,
+    0x1.766dc2p-4, -0x2.754cfcp-12, -0x3.c39bb4p-8 }, /* 23 */
+  { 0x1.3d46ccp+6, 0x1.3d482ep+6, 0x1.3d495ep+6, -0x1.340a8ap-24,
+    -0x1.6ef07ep-4, 0x2.4ff9d4p-12, 0x3.9b36e4p-8 }, /* 24 */
+  { 0x1.49d688p+6, 0x1.49d95ap+6, 0x1.49dabep+6, -0x3.ba66p-24,
+    0x1.67e1dcp-4, -0x2.2f32b8p-12, -0x3.e2aaf4p-8 }, /* 25 */
+  { 0x1.566916p+6, 0x1.566a84p+6, 0x1.566bcp+6, 0x6.47ca5p-28,
+    -0x1.61379ap-4, 0x2.1096acp-12, 0x4.2d0968p-8 }, /* 26 */
+  { 0x1.62f8dap+6, 0x1.62fbaap+6, 0x1.62fc9cp+6, -0x2.12affp-24,
+    0x1.5ae8c4p-4, -0x1.f32444p-12, -0x3.9e592p-8 }, /* 27 */
+  { 0x1.6f89e6p+6, 0x1.6f8ccep+6, 0x1.6f8e34p+6, -0x7.4853ap-28,
+    -0x1.54ed76p-4, 0x1.db004ap-12, 0x3.907034p-8 }, /* 28 */
+  { 0x1.7c1c6ap+6, 0x1.7c1deep+6, 0x1.7c1f4cp+6, -0x4.f0a998p-24,
+    0x1.4f3ebcp-4, -0x1.c26808p-12, -0x2.da8df8p-8 }, /* 29 */
+  { 0x1.88adaep+6, 0x1.88af0ep+6, 0x1.88afc4p+6, -0x1.80c246p-24,
+    -0x1.49d668p-4, 0x1.aebc26p-12, 0x3.af7b5cp-8 }, /* 30 */
+  { 0x1.953d7p+6, 0x1.95402ap+6, 0x1.9540ep+6, -0x2.22aff8p-24,
+    0x1.44aefap-4, -0x1.99f25p-12, -0x3.5e9198p-8 }, /* 31 */
+  { 0x1.a1d01ep+6, 0x1.a1d146p+6, 0x1.a1d20ap+6, -0x3.aad6d4p-24,
+    -0x1.3fc386p-4, 0x1.892858p-12, 0x3.fe0184p-8 }, /* 32 */
+  { 0x1.ae60ecp+6, 0x1.ae625ep+6, 0x1.ae6326p+6, -0x2.010be4p-24,
+    0x1.3b0fa4p-4, -0x1.7539ap-12, -0x2.b2c9bp-8 }, /* 33 */
+  { 0x1.baf234p+6, 0x1.baf376p+6, 0x1.baf442p+6, -0xd.4fd17p-32,
+    -0x1.368f5cp-4, 0x1.6734e4p-12, 0x3.59f514p-8 }, /* 34 */
+  { 0x1.c782e6p+6, 0x1.c7848cp+6, 0x1.c78516p+6, -0xa.d662dp-28,
+    0x1.323f18p-4, -0x1.571c02p-12, -0x3.2be5bp-8 }, /* 35 */
+  { 0x1.d4144ep+6, 0x1.d415ap+6, 0x1.d41622p+6, 0x4.9f217p-24,
+    -0x1.2e1b9ap-4, 0x1.4a2edap-12, 0x3.a4e96p-8 }, /* 36 */
+  { 0x1.e0a5ep+6, 0x1.e0a6b4p+6, 0x1.e0a788p+6, -0x2.d167p-24,
+    0x1.2a21eep-4, -0x1.3c4b46p-12, -0x4.9e0978p-8 }, /* 37 */
+  { 0x1.ed36eep+6, 0x1.ed37c8p+6, 0x1.ed3892p+6, -0x4.15a83p-24,
+    -0x1.264f66p-4, 0x1.31dea4p-12, 0x3.d125ecp-8 }, /* 38 */
+  { 0x1.f9c77p+6, 0x1.f9c8d8p+6, 0x1.f9c9acp+6, -0x2.a5bbbp-24,
+    0x1.22a192p-4, -0x1.25e59ep-12, -0x2.ef6934p-8 }, /* 39 */
+  { 0x1.032c54p+7, 0x1.032cf4p+7, 0x1.032d66p+7, 0x4.e828bp-24,
+    -0x1.1f1634p-4, 0x1.1c2394p-12, 0x3.6d744cp-8 }, /* 40 */
+  { 0x1.09750cp+7, 0x1.09757cp+7, 0x1.0975b6p+7, -0x3.28a3bcp-24,
+    0x1.1bab3ep-4, -0x1.1569cep-12, -0x5.84da7p-8 }, /* 41 */
+  { 0x1.0fbd9ap+7, 0x1.0fbe04p+7, 0x1.0fbe5ep+7, -0x2.2f667p-24,
+    -0x1.185eccp-4, 0x1.07f42cp-12, 0x2.87896cp-8 }, /* 42 */
+  { 0x1.160628p+7, 0x1.16068ap+7, 0x1.1606cep+7, -0x6.9097dp-24,
+    0x1.152f28p-4, -0x1.0227fep-12, -0x5.da6e6p-8 }, /* 43 */
+  { 0x1.1c4e9ap+7, 0x1.1c4f12p+7, 0x1.1c4f7cp+7, -0x5.1b408p-24,
+    -0x1.121abp-4, 0xf.6efcp-16, 0x2.c5e954p-8 }, /* 44 */
+  { 0x1.2296aap+7, 0x1.229798p+7, 0x1.2297d4p+7, 0x2.70d0dp-24,
+    0x1.0f1ffp-4, -0xf.523f5p-16, -0x3.5c0568p-8 }, /* 45 */
+  { 0x1.28dfa4p+7, 0x1.28e01ep+7, 0x1.28e054p+7, -0x2.7c176p-24,
+    -0x1.0c3d8ap-4, 0xe.8329ap-16, 0x3.5eb34p-8 }, /* 46 */
+  { 0x1.2f282ap+7, 0x1.2f28a4p+7, 0x1.2f28dep+7, 0x4.fd6368p-24,
+    0x1.097236p-4, -0xe.17299p-16, -0x3.73a2e4p-8 }, /* 47 */
+  { 0x1.3570bp+7, 0x1.357128p+7, 0x1.35716p+7, 0x6.b05f68p-24,
+    -0x1.06bccap-4, 0xd.527b8p-16, 0x2.b8bf9cp-8 }, /* 48 */
+  { 0x1.3bb932p+7, 0x1.3bb9aep+7, 0x1.3bb9eap+7, 0x4.0d622p-28,
+    0x1.041c28p-4, -0xd.0ac11p-16, -0x1.65f2ccp-8 }, /* 49 */
+  { 0x1.4201b6p+7, 0x1.420232p+7, 0x1.42027p+7, 0x7.0d98cp-24,
+    -0x1.018f52p-4, 0xc.c4d8ep-16, 0x2.8f250cp-8 }, /* 50 */
+  { 0x1.484a78p+7, 0x1.484ab8p+7, 0x1.484af4p+7, 0x3.93d10cp-24,
+    0xf.f154fp-8, -0xc.7b7fep-16, -0x3.6b6e4cp-8 }, /* 51 */
+  { 0x1.4e92c8p+7, 0x1.4e933cp+7, 0x1.4e9368p+7, 0xd.88185p-32,
+    -0xf.cad3fp-8, 0xc.1462p-16, 0x2.bd66p-8 }, /* 52 */
+  { 0x1.54db84p+7, 0x1.54dbcp+7, 0x1.54dbf4p+7, -0x1.fe6b92p-24,
+    0xf.a564cp-8, -0xb.c4e6cp-16, -0x3.d51decp-8 }, /* 53 */
+  { 0x1.5b23c4p+7, 0x1.5b2444p+7, 0x1.5b2486p+7, 0x2.6137f4p-24,
+    -0xf.80faep-8, 0xb.5199ep-16, 0x1.9ca85ap-8 }, /* 54 */
+  { 0x1.616c62p+7, 0x1.616cc8p+7, 0x1.616d0ap+7, -0x1.55468p-24,
+    0xf.5d8acp-8, -0xb.21d16p-16, -0x1.b8809ap-8 }, /* 55 */
+  { 0x1.67b4fp+7, 0x1.67b54cp+7, 0x1.67b588p+7, -0x1.08c6bep-24,
+    -0xf.3b096p-8, 0xa.e65efp-16, 0x3.642304p-8 }, /* 56 */
+  { 0x1.6dfd8ep+7, 0x1.6dfddp+7, 0x1.6dfe0ap+7, 0x4.9ebfa8p-24,
+    0xf.196c7p-8, -0xa.ba8c8p-16, -0x5.ad6a2p-8 }, /* 57 */
+  { 0x1.74461p+7, 0x1.744652p+7, 0x1.744692p+7, 0x5.a4017p-24,
+    -0xe.f8aa5p-8, 0xa.49748p-16, 0x2.a86498p-8 }, /* 58 */
+  { 0x1.7a8e5ep+7, 0x1.7a8ed6p+7, 0x1.7a8ef8p+7, 0x3.bcb2a8p-28,
+    0xe.d8b9dp-8, -0x9.c43bep-16, -0x1.e7124ap-8 }, /* 59 */
+  { 0x1.80d6cep+7, 0x1.80d75ap+7, 0x1.80d78ap+7, -0x7.1091fp-24,
+    -0xe.b9925p-8, 0x9.c43dap-16, 0x1.aba86p-8 }, /* 60 */
+  { 0x1.871f58p+7, 0x1.871fdcp+7, 0x1.87201ep+7, 0x2.ca1cf4p-28,
+    0xe.9b2bep-8, -0x9.843b3p-16, -0x2.093e68p-8 }, /* 61 */
+  { 0x1.8d67e8p+7, 0x1.8d685ep+7, 0x1.8d688ep+7, 0x5.aa8908p-24,
+    -0xe.7d7ecp-8, 0x9.501a8p-16, 0x2.54a754p-8 }, /* 62 */
+  { 0x1.93b09cp+7, 0x1.93b0e2p+7, 0x1.93b10ep+7, 0x3.d9cd9cp-24,
+    0xe.6083ap-8, -0x9.45dadp-16, -0x5.112908p-8 }, /* 63 */
+};
+
+/* Formula page 5 of https://www.cl.cam.ac.uk/~jrh13/papers/bessel.pdf:
+   j1f(x) ~ sqrt(2/(pi*x))*beta1(x)*cos(x-3pi/4-alpha1(x))
+   where beta1(x) = 1 + 3/(16*x^2) - 99/(512*x^4)
+   and alpha1(x) = -3/(8*x) + 21/(128*x^3) - 1899/(5120*x^5).  */
+static float
+j1f_asympt (float x)
+{
+  float cst = 0xc.c422ap-4; /* sqrt(2/pi) rounded to nearest  */
+  if (x < 0)
+    {
+      x = -x;
+      cst = -cst;
+    }
+  double y = 1.0 / (double) x;
+  double y2 = y * y;
+  double beta1 = 1.0f + y2 * (0x3p-4 - 0x3.18p-4 * y2);
+  double alpha1;
+  alpha1 = y * (-0x6p-4 + y2 * (0x2.ap-4 - 0x5.ef33333333334p-4 * y2));
+  double h;
+  int n;
+  h = reduce_aux (x, &n, alpha1);
+  n--; /* Subtract pi/2.  */
+  /* Now x - 3pi/4 - alpha1 = h + n*pi/2 mod (2*pi).  */
+  float xr = (float) h;
+  n = n & 3;
+  float t = cst / sqrtf (x) * (float) beta1;
+  if (n == 0)
+    return t * __cosf (xr);
+  else if (n == 2) /* cos(x+pi) = -cos(x)  */
+    return -t * __cosf (xr);
+  else if (n == 1) /* cos(x+pi/2) = -sin(x)  */
+    return -t * __sinf (xr);
+  else             /* cos(x+3pi/2) = sin(x)  */
+    return t * __sinf (xr);
+}
+
+/* Special code for x near a root of j1.
+   z is the value computed by the generic code.
+   For small x, we use a polynomial approximating j1 around its root.
+   For large x, we use an asymptotic formula (j1f_asympt).  */
+static float
+j1f_near_root (float x, float z)
+{
+  float index_f, sign = 1.0f;
+  int index;
+
+  if (x < 0)
+    {
+      x = -x;
+      sign = -1.0f;
+    }
+  index_f = roundf ((x - FIRST_ZERO_J1) / (float) M_PI);
+  if (index_f >= SMALL_SIZE)
+    return sign * j1f_asympt (x);
+  index = (int) index_f;
+  const float *p = Pj[index];
+  float x0 = p[0];
+  float x1 = p[2];
+  /* If not in the interval [x0,x1] around xmid, return the value z.  */
+  if (! (x0 <= x && x <= x1))
+    return z;
+  float xmid = p[1];
+  float y = x - xmid;
+  float p6 = (index > 0) ? p[6] : p[6] + y * -0x1.3e51aap-8f;
+  return sign * (p[3] + y * (p[4] + y * (p[5] + y * p6)));
+}
+
 float
 __ieee754_j1f(float x)
 {
@@ -53,25 +271,37 @@  __ieee754_j1f(float x)
 	if(__builtin_expect(ix>=0x7f800000, 0)) return one/x;
 	y = fabsf(x);
 	if(ix >= 0x40000000) {	/* |x| >= 2.0 */
+                SET_RESTORE_ROUNDF (FE_TONEAREST);
 		__sincosf (y, &s, &c);
 		ss = -s-c;
 		cc = s-c;
-		if(ix<0x7f000000) {  /* make sure y+y not overflow */
-		    z = __cosf(y+y);
-		    if ((s*c)>zero) cc = z/ss;
-		    else	    ss = z/cc;
-		}
+                if (ix >= 0x7f000000)
+		  /* x >= 2^127: use asymptotic expansion.  */
+                  return j1f_asympt (x);
+                /* Now we are sure that x+x cannot overflow.  */
+                z = __cosf(y+y);
+                if ((s*c)>zero) cc = z/ss;
+                else	        ss = z/cc;
 	/*
 	 * j1(x) = 1/sqrt(pi) * (P(1,x)*cc - Q(1,x)*ss) / sqrt(x)
 	 * y1(x) = 1/sqrt(pi) * (P(1,x)*ss + Q(1,x)*cc) / sqrt(x)
 	 */
-		if(ix>0x5c000000) z = (invsqrtpi*cc)/sqrtf(y);
-		else {
+		if (ix <= 0x5c000000)
+                  {
 		    u = ponef(y); v = qonef(y);
-		    z = invsqrtpi*(u*cc-v*ss)/sqrtf(y);
-		}
-		if(hx<0) return -z;
-		else	 return  z;
+		    cc = u*cc-v*ss;
+                  }
+                z = (invsqrtpi * cc) / sqrtf(y);
+                /* Adjust sign of z.  */
+                z = (hx < 0) ? -z : z;
+                /* The following threshold is optimal: for x=0x1.e09e5ep+1
+                   and rounding upwards, cc=0x1.b79638p-4 and z is 10 ulps
+                   far from the correctly rounded value.  */
+                float threshold = 0x1.b79638p-4;
+                if (fabsf (cc) > threshold)
+                  return z;
+                else
+                  return j1f_near_root (x, z);
 	}
 	if(__builtin_expect(ix<0x32000000, 0)) {	/* |x|<2**-27 */
 	    if(huge+x>one) {		/* inexact if x!=0 necessary */
@@ -105,6 +335,218 @@  static const float V0[5] = {
   1.6655924903e-11, /* 0x2d9281cf */
 };
 
+/* This is the nearest approximation of the first zero of y1.  */
+#define FIRST_ZERO_Y1 0x2.3277dcp+0f
+
+/* The following table contains successive zeros of y1 and degree-3
+   polynomial approximations of y1 around these zeros: Py[0] for the first
+   positive zero (2.197141), Py[1] for the second one (5.429681), and so on.
+   Each line contains:
+              {x0, xmid, x1, p0, p1, p2, p3}
+   where [x0,x1] is the interval around the zero, xmid is the binary32 number
+   closest to the zero, and p0+p1*x+p2*x^2+p3*x^3 is the approximation
+   polynomial.  Each polynomial was generated using Sollya on the interval
+   [x0,x1] around the corresponding zero where the error exceeds 9 ulps
+   for the alternate code.  Degree 3 is enough, except for the first roots.
+*/
+static const float Py[SMALL_SIZE][7] = {
+  /* For index 0, we use a degree-5 polynomial generated by Sollya, with the
+     coefficients of degree 4 and 5 hard-coded in y1f_near_root().  */
+  { 0x1.f7f16ap+0, 0x1.193beep+1, 0x1.2105dcp+1, 0xb.96749p-28,
+    0x8.55241p-4, -0x1.e570bp-4, -0x8.68b61p-8
+    /*, -0x1.28043p-8, 0x2.50e83p-8*/ }, /* 0 */
+  /* For index 1, we use a degree-4 polynomial generated by Sollya, with the
+     coefficient of degree 4 hard-coded in y1f_near_root().  */
+  { 0x1.55c6d2p+2, 0x1.5b7fe4p+2, 0x1.5cf8cap+2, 0x1.3c7822p-24,
+    -0x5.71f158p-4, 0x8.05cb4p-8, 0xd.0b15p-8/*, -0xf.ff6b8p-12*/ }, /* 1 */
+  { 0x1.113c6p+3, 0x1.13127ap+3, 0x1.1387dcp+3, -0x1.f3ad8ep-24,
+    0x4.57e66p-4, -0x4.0afb58p-8, -0xb.29207p-8 }, /* 2 */
+  { 0x1.76e7dep+3, 0x1.77f914p+3, 0x1.786a6ap+3, -0xd.5608fp-28,
+    -0x3.b829d4p-4, 0x2.8852cp-8, 0x9.b70e3p-8 }, /* 3 */
+  { 0x1.dc2794p+3, 0x1.dcb7d8p+3, 0x1.dd032p+3, -0xe.a7c04p-28,
+    0x3.4e0458p-4, -0x1.c64b18p-8, -0x8.b0e7fp-8 }, /* 4 */
+  { 0x1.20874p+4, 0x1.20b1c6p+4, 0x1.20c71p+4, 0x1.c2626p-24,
+    -0x3.00f03cp-4, 0x1.54f806p-8, 0x7.f9cf9p-8 }, /* 5 */
+  { 0x1.52d848p+4, 0x1.530254p+4, 0x1.531962p+4, -0x1.9503ecp-24,
+    0x2.c5b29cp-4, -0x1.0bf28p-8, -0x7.562e58p-8 }, /* 6 */
+  { 0x1.851e64p+4, 0x1.854fa4p+4, 0x1.85679p+4, -0x2.8d40fcp-24,
+    -0x2.96547p-4, 0xd.9c38bp-12, 0x6.dcbf8p-8 }, /* 7 */
+  { 0x1.b7808ep+4, 0x1.b79acep+4, 0x1.b7b2a8p+4, -0x2.36df5cp-24,
+    0x2.6f55ap-4, -0xb.57f9fp-12, -0x6.82569p-8 }, /* 8 */
+  { 0x1.e9c8fp+4, 0x1.e9e48p+4, 0x1.e9f24p+4, 0xd.e2eb7p-28,
+    -0x2.4e8104p-4, 0x9.a4be2p-12, 0x6.2541fp-8 }, /* 9 */
+  { 0x1.0e0808p+5, 0x1.0e169p+5, 0x1.0e1d92p+5, -0x2.3070f4p-24,
+    0x2.325e4cp-4, -0x8.53604p-12, -0x5.ca03a8p-8 }, /* 10 */
+  { 0x1.272e08p+5, 0x1.273a7cp+5, 0x1.2741fcp+5, -0x3.525508p-24,
+    -0x2.19e7dcp-4, 0x7.49d1dp-12, 0x5.9cb02p-8 }, /* 11 */
+  { 0x1.404ec6p+5, 0x1.405e18p+5, 0x1.4065cep+5, -0xe.6e158p-28,
+    0x2.046174p-4, -0x6.71b3dp-12, -0x5.4c3c8p-8 }, /* 12 */
+  { 0x1.5971dcp+5, 0x1.598178p+5, 0x1.598592p+5, 0x1.e72698p-24,
+    -0x1.f13fb2p-4, 0x5.c0f938p-12, 0x5.28ca78p-8 }, /* 13 */
+  { 0x1.729c4ep+5, 0x1.72a4a8p+5, 0x1.72a8eap+5, -0x1.5bed9cp-24,
+    0x1.e018dcp-4, -0x5.2f11e8p-12, -0x5.16ce48p-8 }, /* 14 */
+  { 0x1.8bbf4ep+5, 0x1.8bc7b2p+5, 0x1.8bcc1p+5, -0x3.6b654cp-24,
+    -0x1.d09b2p-4, 0x4.b1747p-12, 0x4.bd22fp-8 }, /* 15 */
+  { 0x1.a4e272p+5, 0x1.a4ea9ap+5, 0x1.a4eef4p+5, 0x1.6f11bp-24,
+    0x1.c28612p-4, -0x4.47462p-12, -0x4.947c5p-8 }, /* 16 */
+  { 0x1.be08bep+5, 0x1.be0d68p+5, 0x1.be1088p+5, -0x2.0bc074p-24,
+    -0x1.b5a622p-4, 0x3.ed52d4p-12, 0x4.b76fc8p-8 }, /* 17 */
+  { 0x1.d7272ap+5, 0x1.d7301ep+5, 0x1.d734aep+5, -0x2.87dd4p-24,
+    0x1.a9d184p-4, -0x3.9cf494p-12, -0x4.6303ep-8 }, /* 18 */
+  { 0x1.f0499ap+5, 0x1.f052c4p+5, 0x1.f05758p+5, -0x2.fb964p-24,
+    -0x1.9ee5eep-4, 0x3.5800dp-12, 0x4.4e9f9p-8 }, /* 19 */
+  { 0x1.04b63ap+6, 0x1.04baacp+6, 0x1.04bc92p+6, 0x2.cf5adp-24,
+    0x1.94c6f4p-4, -0x3.1a83e4p-12, -0x4.2311fp-8 }, /* 20 */
+  { 0x1.1146dp+6, 0x1.114beep+6, 0x1.114e12p+6, 0x3.6766fp-24,
+    -0x1.8b5cccp-4, 0x2.e4a4e4p-12, 0x4.20bf9p-8 }, /* 21 */
+  { 0x1.1dda8cp+6, 0x1.1ddd2cp+6, 0x1.1dde7ap+6, 0x3.501424p-24,
+    0x1.829356p-4, -0x2.b47524p-12, -0x4.04bf18p-8 }, /* 22 */
+  { 0x1.2a6bcp+6, 0x1.2a6e64p+6, 0x1.2a6faap+6, -0x5.c05808p-24,
+    -0x1.7a597ep-4, 0x2.8a0498p-12, 0x4.187258p-8 }, /* 23 */
+  { 0x1.36fcd6p+6, 0x1.36ff96p+6, 0x1.3700f6p+6, 0x7.1e1478p-28,
+    0x1.72a09ap-4, -0x2.61a7fp-12, -0x3.c0b54p-8 }, /* 24 */
+  { 0x1.438f46p+6, 0x1.4390c4p+6, 0x1.4392p+6, 0x3.e36e6cp-24,
+    -0x1.6b5c06p-4, 0x2.3f612p-12, 0x4.18f868p-8 }, /* 25 */
+  { 0x1.501f4cp+6, 0x1.5021fp+6, 0x1.50235p+6, 0x1.3f9e5ap-24,
+    0x1.6480c4p-4, -0x2.1f28fcp-12, -0x3.bb4e3cp-8 }, /* 26 */
+  { 0x1.5cb07cp+6, 0x1.5cb318p+6, 0x1.5cb464p+6, -0x2.39e41cp-24,
+    -0x1.5e0544p-4, 0x2.0189f4p-12, 0x3.8b55acp-8 }, /* 27 */
+  { 0x1.694166p+6, 0x1.69443cp+6, 0x1.694594p+6, -0x2.912f84p-24,
+    0x1.57e12p-4, -0x1.e6fabep-12, -0x3.850174p-8 }, /* 28 */
+  { 0x1.75d27cp+6, 0x1.75d55ep+6, 0x1.75d67ep+6, 0x3.d5b00cp-24,
+    -0x1.520ceep-4, 0x1.d0286ep-12, 0x3.8e7d1p-8 }, /* 29 */
+  { 0x1.82653ep+6, 0x1.82667ep+6, 0x1.82674p+6, -0x3.1726ecp-24,
+    0x1.4c8222p-4, -0x1.b98206p-12, -0x3.f34978p-8 }, /* 30 */
+  { 0x1.8ef4b4p+6, 0x1.8ef79cp+6, 0x1.8ef888p+6, 0x1.949e22p-24,
+    -0x1.473ae6p-4, 0x1.a47388p-12, 0x3.69eefcp-8 }, /* 31 */
+  { 0x1.9b8728p+6, 0x1.9b88b8p+6, 0x1.9b896cp+6, -0x5.5553bp-28,
+    0x1.42320ap-4, -0x1.90f0b8p-12, -0x3.6565p-8 }, /* 32 */
+  { 0x1.a8183cp+6, 0x1.a819d2p+6, 0x1.a81aecp+6, 0x3.2df7ecp-28,
+    -0x1.3d62e4p-4, 0x1.7dae28p-12, 0x2.9eb128p-8 }, /* 33 */
+  { 0x1.b4aa1cp+6, 0x1.b4aaeap+6, 0x1.b4abb8p+6, -0x1.e13fcep-24,
+    0x1.38c948p-4, -0x1.6eb0ecp-12, -0x1.f9ddf8p-8 }, /* 34 */
+  { 0x1.c13a7ap+6, 0x1.c13c02p+6, 0x1.c13cbp+6, -0x3.ad9974p-24,
+    -0x1.34616ep-4, 0x1.5e36ecp-12, 0x2.a9fc5p-8 }, /* 35 */
+  { 0x1.cdcb76p+6, 0x1.cdcd16p+6, 0x1.cdcde4p+6, -0x3.6977e8p-24,
+    0x1.3027fp-4, -0x1.4f703p-12, -0x2.9817d4p-8 }, /* 36 */
+  { 0x1.da5cdep+6, 0x1.da5e2ap+6, 0x1.da5efp+6, 0x4.654cbp-24,
+    -0x1.2c19b6p-4, 0x1.455982p-12, 0x3.f1c564p-8 }, /* 37 */
+  { 0x1.e6edccp+6, 0x1.e6ef3ep+6, 0x1.e6f00ap+6, 0x8.825c8p-32,
+    0x1.2833eep-4, -0x1.39097p-12, -0x3.b2646p-8 }, /* 38 */
+  { 0x1.f37f72p+6, 0x1.f3805p+6, 0x1.f3812ap+6, -0x2.0d11d8p-28,
+    -0x1.24740ap-4, 0x1.2c16p-12, 0x1.fc3804p-8 }, /* 39 */
+  { 0x1.000842p+7, 0x1.0008bp+7, 0x1.000908p+7, -0x4.4e495p-24,
+    0x1.20d7b6p-4, -0x1.20816p-12, -0x2.d1ebe8p-8 }, /* 40 */
+  { 0x1.06505cp+7, 0x1.065138p+7, 0x1.06518p+7, 0x4.81c1c8p-24,
+    -0x1.1d5ccap-4, 0x1.17ad5ap-12, 0x2.fda33p-8 }, /* 41 */
+  { 0x1.0c98dap+7, 0x1.0c99cp+7, 0x1.0c9a28p+7, -0xe.99386p-28,
+    0x1.1a015p-4, -0x1.0bd50ap-12, -0x2.9dfb68p-8 }, /* 42 */
+  { 0x1.12e212p+7, 0x1.12e248p+7, 0x1.12e29p+7, -0x6.16f1c8p-24,
+    -0x1.16c37ap-4, 0x1.0303dcp-12, 0x4.34316p-8 }, /* 43 */
+  { 0x1.192a68p+7, 0x1.192acep+7, 0x1.192b02p+7, -0x1.129336p-24,
+    0x1.13a19ep-4, -0xf.bd247p-16, -0x3.851d18p-8 }, /* 44 */
+  { 0x1.1f727p+7, 0x1.1f7354p+7, 0x1.1f73ap+7, 0x5.19c09p-24,
+    -0x1.109a32p-4, 0xf.09644p-16, 0x2.d78194p-8 }, /* 45 */
+  { 0x1.25bb8p+7, 0x1.25bbdap+7, 0x1.25bc12p+7, -0x6.497dp-24,
+    0x1.0dabc8p-4, -0xe.a1d25p-16, -0x2.3378bp-8 }, /* 46 */
+  { 0x1.2c04p+7, 0x1.2c046p+7, 0x1.2c04ap+7, 0x4.e4f338p-24,
+    -0x1.0ad512p-4, 0xe.52d84p-16, 0x4.3bfa08p-8 }, /* 47 */
+  { 0x1.324cbp+7, 0x1.324ce6p+7, 0x1.324d4p+7, -0x1.287c58p-24,
+    0x1.0814d4p-4, -0xe.03a95p-16, 0x3.9930ap-12 }, /* 48 */
+  { 0x1.3894f6p+7, 0x1.38956cp+7, 0x1.3895ap+7, -0x4.b594ep-24,
+    -0x1.0569fp-4, 0xd.6787ep-16, 0x4.0a5148p-8 }, /* 49 */
+  { 0x1.3edd98p+7, 0x1.3eddfp+7, 0x1.3ede2ap+7, -0x3.a8f164p-24,
+    0x1.02d354p-4, -0xd.0309dp-16, -0x3.2ebfb4p-8 }, /* 50 */
+  { 0x1.452638p+7, 0x1.452676p+7, 0x1.4526b4p+7, -0x6.12505p-24,
+    -0x1.005004p-4, 0xc.a0045p-16, 0x4.87c67p-8 }, /* 51 */
+  { 0x1.4b6e8p+7, 0x1.4b6efap+7, 0x1.4b6f34p+7, 0x1.8acf4ep-24,
+    0xf.ddf16p-8, -0xc.2d207p-16, -0x1.da6c36p-8 }, /* 52 */
+  { 0x1.51b742p+7, 0x1.51b77ep+7, 0x1.51b7b2p+7, 0x1.39cf86p-24,
+    -0xf.b7faep-8, 0xb.db598p-16, -0x8.945b1p-12 }, /* 53 */
+  { 0x1.57ffc4p+7, 0x1.580002p+7, 0x1.58003cp+7, -0x2.5f8de8p-24,
+    0xf.930fep-8, -0xb.91889p-16, -0xa.30df9p-12 }, /* 54 */
+  { 0x1.5e483p+7, 0x1.5e4886p+7, 0x1.5e48c8p+7, 0x2.073d64p-24,
+    -0xf.6f245p-8, 0xb.4085fp-16, 0x2.128188p-8 }, /* 55 */
+  { 0x1.64908cp+7, 0x1.64910ap+7, 0x1.64912ap+7, -0x4.ed26ep-28,
+    0xf.4c2cep-8, -0xa.fe719p-16, -0x2.9374b8p-8 }, /* 56 */
+  { 0x1.6ad91ep+7, 0x1.6ad98ep+7, 0x1.6ad9cep+7, -0x2.ae5204p-24,
+    -0xf.2a1efp-8, 0xa.aa585p-16, 0x2.1c0834p-8 }, /* 57 */
+  { 0x1.7121cep+7, 0x1.712212p+7, 0x1.712238p+7, 0x6.d72168p-24,
+    0xf.08f09p-8, -0xa.7da49p-16, -0x3.4f5f1cp-8 }, /* 58 */
+  { 0x1.776a0cp+7, 0x1.776a94p+7, 0x1.776accp+7, 0x2.d3f294p-24,
+    -0xe.e8986p-8, 0xa.23ccdp-16, 0x2.2a6678p-8 }, /* 59 */
+  { 0x1.7db2e8p+7, 0x1.7db318p+7, 0x1.7db35ap+7, 0x3.88c0fp-24,
+    0xe.c90d7p-8, -0x9.eaeap-16, -0x2.86438cp-8 }, /* 60 */
+  { 0x1.83fb56p+7, 0x1.83fb9ap+7, 0x1.83fbep+7, 0x3.d94d34p-24,
+    -0xe.aa478p-8, 0x9.abac7p-16, 0x1.ac2d84p-8 }, /* 61 */
+  { 0x1.8a43e8p+7, 0x1.8a441ep+7, 0x1.8a446p+7, 0x4.66b7ep-24,
+    0xe.8c3e9p-8, -0x9.87682p-16, -0x7.9ab4a8p-12 }, /* 62 */
+  { 0x1.908c6p+7, 0x1.908cap+7, 0x1.908ce6p+7, 0xf.f7ac9p-28,
+    -0xe.6eeb6p-8, 0x9.4423p-16, 0x4.54c4d8p-8 }, /* 63 */
+};
+
+/* Formula page 5 of https://www.cl.cam.ac.uk/~jrh13/papers/bessel.pdf:
+   y1f(x) ~ sqrt(2/(pi*x))*beta1(x)*sin(x-3pi/4-alpha1(x))
+   where beta1(x) = 1 + 3/(16*x^2) - 99/(512*x^4)
+   and alpha1(x) = -3/(8*x) + 21/(128*x^3) - 1899/(5120*x^5).  */
+static float
+y1f_asympt (float x)
+{
+  float cst = 0xc.c422ap-4; /* sqrt(2/pi) rounded to nearest  */
+  double y = 1.0 / (double) x;
+  double y2 = y * y;
+  double beta1 = 1.0f + y2 * (0x3p-4 - 0x3.18p-4 * y2);
+  double alpha1;
+  alpha1 = y * (-0x6p-4 + y2 * (0x2.ap-4 - 0x5.ef33333333334p-4 * y2));
+  double h;
+  int n;
+  h = reduce_aux (x, &n, alpha1);
+  n--; /* Subtract pi/2.  */
+  /* Now x - 3pi/4 - alpha1 = h + n*pi/2 mod (2*pi).  */
+  float xr = (float) h;
+  n = n & 3;
+  float t = cst / sqrtf (x) * (float) beta1;
+  if (n == 0)
+    return t * __sinf (xr);
+  else if (n == 2) /* sin(x+pi) = -sin(x)  */
+    return -t * __sinf (xr);
+  else if (n == 1) /* sin(x+pi/2) = cos(x)  */
+    return t * __cosf (xr);
+  else             /* sin(x+3pi/2) = -cos(x)  */
+    return -t * __cosf (xr);
+}
+
+/* Special code for x near a root of y1.
+   z is the value computed by the generic code.
+   For small x, we use a polynomial approximating y1 around its root.
+   For large x, we use an asymptotic formula (y1f_asympt).  */
+static float
+y1f_near_root (float x, float z)
+{
+  float index_f;
+  int index;
+
+  index_f = roundf ((x - FIRST_ZERO_Y1) / (float) M_PI);
+  if (index_f >= SMALL_SIZE)
+    return y1f_asympt (x);
+  index = (int) index_f;
+  const float *p = Py[index];
+  float x0 = p[0];
+  float x1 = p[2];
+  /* If not in the interval [x0,x1] around xmid, return the value z.  */
+  if (! (x0 <= x && x <= x1))
+    return z;
+  float xmid = p[1];
+  float y = x - xmid, p6;
+  if (index == 0)
+    p6 = p[6] + y * (-0x1.28043p-8 + y * 0x2.50e83p-8);
+  else if (index == 1)
+    p6 = p[6] + y * -0xf.ff6b8p-12;
+  else
+    p6 = p[6];
+  return p[3] + y * (p[4] + y * (p[5] + y * p6));
+}
+
 float
 __ieee754_y1f(float x)
 {
@@ -118,16 +560,18 @@  __ieee754_y1f(float x)
 	if(__builtin_expect(ix==0, 0))
 		return -1/zero; /* -inf and divide by zero exception.  */
 	if(__builtin_expect(hx<0, 0)) return zero/(zero*x);
-	if(ix >= 0x40000000) {  /* |x| >= 2.0 */
+        if (ix >= 0x3fe0dfbc) { /* |x| >= 0x1.c1bf78p+0 */
 		SET_RESTORE_ROUNDF (FE_TONEAREST);
 		__sincosf (x, &s, &c);
 		ss = -s-c;
 		cc = s-c;
-		if(ix<0x7f000000) {  /* make sure x+x not overflow */
-		    z = __cosf(x+x);
-		    if ((s*c)>zero) cc = z/ss;
-		    else            ss = z/cc;
-		}
+                if (ix >= 0x7f000000)
+		  /* x >= 2^127: use asymptotic expansion.  */
+                  return y1f_asympt (x);
+                /* Now we are sure that x+x cannot overflow.  */
+                z = __cosf(x+x);
+                if ((s*c)>zero) cc = z/ss;
+                else            ss = z/cc;
 	/* y1(x) = sqrt(2/(pi*x))*(p1(x)*sin(x0)+q1(x)*cos(x0))
 	 * where x0 = x-3pi/4
 	 *      Better formula:
@@ -139,12 +583,20 @@  __ieee754_y1f(float x)
 	 *              sin(x) +- cos(x) = -cos(2x)/(sin(x) -+ cos(x))
 	 * to compute the worse one.
 	 */
-		if(ix>0x5c000000) z = (invsqrtpi*ss)/sqrtf(x);
-		else {
-		    u = ponef(x); v = qonef(x);
-		    z = invsqrtpi*(u*ss+v*cc)/sqrtf(x);
-		}
-		return z;
+                if (ix <= 0x5c000000)
+                  {
+                    u = ponef(x); v = qonef(x);
+                    ss = u*ss+v*cc;
+                  }
+                z = (invsqrtpi * ss) / sqrtf(x);
+                float threshold = 0x1.3e014cp-2;
+                /* The following threshold is optimal: for x=0x1.f7f16ap+0
+                   and rounding upwards, |ss|=-0x1.3e014cp-2 and z is 11 ulps
+                   far from the correctly rounded value.  */
+                if (fabsf (ss) > threshold)
+                  return z;
+                else
+                  return y1f_near_root (x, z);
 	}
 	if(__builtin_expect(ix<=0x33000000, 0)) {    /* x < 2**-25 */
 	    z = -tpi / x;
@@ -152,6 +604,7 @@  __ieee754_y1f(float x)
 		__set_errno (ERANGE);
 	    return z;
 	}
+        /* Now 2**-25 <= x < 0x1.c1bf78p+0.  */
 	z = x*x;
 	u = U0[0]+z*(U0[1]+z*(U0[2]+z*(U0[3]+z*U0[4])));
 	v = one+z*(V0[0]+z*(V0[1]+z*(V0[2]+z*(V0[3]+z*V0[4]))));
@@ -159,7 +612,7 @@  __ieee754_y1f(float x)
 }
 libm_alias_finite (__ieee754_y1f, __y1f)
 
-/* For x >= 8, the asymptotic expansions of pone is
+/* For x >= 8, the asymptotic expansion of pone is
  *	1 + 15/128 s^2 - 4725/2^15 s^4 - ...,	where s = 1/x.
  * We approximate pone by
  *	pone(x) = 1 + (R/S)
@@ -252,8 +705,7 @@  ponef(float x)
 	return one+ r/s;
 }
 
-
-/* For x >= 8, the asymptotic expansions of qone is
+/* For x >= 8, the asymptotic expansion of qone is
  *	3/8 s - 105/1024 s^3 - ..., where s = 1/x.
  * We approximate pone by
  *	qone(x) = s*(0.375 + (R/S))
@@ -340,10 +792,10 @@  qonef(float x)
 	GET_FLOAT_WORD(ix,x);
 	ix &= 0x7fffffff;
 	/* ix >= 0x40000000 for all calls to this function.  */
-	if(ix>=0x40200000)     {p = qr8; q= qs8;}
-	else if(ix>=0x40f71c58){p = qr5; q= qs5;}
-	else if(ix>=0x4036db68){p = qr3; q= qs3;}
-	else {p = qr2; q= qs2;}
+	if(ix>=0x41000000)     {p = qr8; q= qs8;} /* x >= 8  */
+	else if(ix>=0x40f71c58){p = qr5; q= qs5;} /* x >= 7.722209930e+00  */
+	else if(ix>=0x4036db68){p = qr3; q= qs3;} /* x >= 2.857141495e+00  */
+	else {p = qr2; q= qs2;}                   /* x >= 2  */
 	z = one/(x*x);
 	r = p[0]+z*(p[1]+z*(p[2]+z*(p[3]+z*(p[4]+z*p[5]))));
 	s = one+z*(q[0]+z*(q[1]+z*(q[2]+z*(q[3]+z*(q[4]+z*q[5])))));
diff --git a/sysdeps/powerpc/fpu/libm-test-ulps b/sysdeps/powerpc/fpu/libm-test-ulps
index 173388b92a..3010e10c75 100644
--- a/sysdeps/powerpc/fpu/libm-test-ulps
+++ b/sysdeps/powerpc/fpu/libm-test-ulps
@@ -1310,50 +1310,50 @@  float128: 1
 ldouble: 3
 
 Function: "j0":
-double: 2
-float: 8
+double: 3
+float: 9
 float128: 2
-ldouble: 2
+ldouble: 5
 
 Function: "j0_downward":
-double: 2
-float: 4
+double: 6
+float: 9
 float128: 4
 ldouble: 12
 
 Function: "j0_towardzero":
-double: 5
-float: 6
+double: 7
+float: 9
 float128: 4
 ldouble: 16
 
 Function: "j0_upward":
-double: 4
-float: 5
+double: 9
+float: 8
 float128: 5
-ldouble: 6
+ldouble: 14
 
 Function: "j1":
-double: 2
-float: 8
+double: 4
+float: 9
 float128: 4
-ldouble: 3
+ldouble: 6
 
 Function: "j1_downward":
 double: 3
-float: 5
+float: 8
 float128: 4
 ldouble: 7
 
 Function: "j1_towardzero":
-double: 3
-float: 2
+double: 4
+float: 8
 float128: 4
 ldouble: 7
 
 Function: "j1_upward":
-double: 3
-float: 4
+double: 9
+float: 9
 float128: 3
 ldouble: 6
 
@@ -1706,49 +1706,49 @@  ldouble: 5
 
 Function: "y0":
 double: 2
-float: 6
+float: 8
 float128: 3
-ldouble: 1
+ldouble: 10
 
 Function: "y0_downward":
 double: 3
-float: 4
+float: 8
 float128: 4
 ldouble: 10
 
 Function: "y0_towardzero":
 double: 3
-float: 3
+float: 8
 float128: 3
-ldouble: 8
+ldouble: 9
 
 Function: "y0_upward":
 double: 2
-float: 5
+float: 8
 float128: 3
 ldouble: 9
 
 Function: "y1":
 double: 3
-float: 2
+float: 9
 float128: 2
 ldouble: 2
 
 Function: "y1_downward":
-double: 3
-float: 2
+double: 6
+float: 8
 float128: 4
-ldouble: 7
+ldouble: 11
 
 Function: "y1_towardzero":
 double: 3
-float: 2
+float: 9
 float128: 2
 ldouble: 9
 
 Function: "y1_upward":
-double: 5
-float: 2
+double: 6
+float: 9
 float128: 5
 ldouble: 9
 
diff --git a/sysdeps/s390/fpu/libm-test-ulps b/sysdeps/s390/fpu/libm-test-ulps
index 91f2c4c80f..9f85f66d4c 100644
--- a/sysdeps/s390/fpu/libm-test-ulps
+++ b/sysdeps/s390/fpu/libm-test-ulps
@@ -1062,44 +1062,44 @@  double: 1
 ldouble: 1
 
 Function: "j0":
-double: 2
-float: 8
+double: 3
+float: 9
 ldouble: 2
 
 Function: "j0_downward":
-double: 2
-float: 4
-ldouble: 4
+double: 6
+float: 9
+ldouble: 9
 
 Function: "j0_towardzero":
-double: 5
-float: 6
-ldouble: 4
+double: 7
+float: 9
+ldouble: 9
 
 Function: "j0_upward":
-double: 4
-float: 5
-ldouble: 5
+double: 9
+float: 8
+ldouble: 7
 
 Function: "j1":
-double: 2
-float: 8
+double: 4
+float: 9
 ldouble: 4
 
 Function: "j1_downward":
 double: 3
-float: 5
-ldouble: 4
+float: 8
+ldouble: 6
 
 Function: "j1_towardzero":
-double: 3
-float: 2
-ldouble: 4
+double: 4
+float: 8
+ldouble: 9
 
 Function: "j1_upward":
-double: 3
-float: 4
-ldouble: 3
+double: 9
+float: 9
+ldouble: 9
 
 Function: "jn":
 double: 4
@@ -1348,42 +1348,42 @@  ldouble: 4
 
 Function: "y0":
 double: 2
-float: 6
+float: 8
 ldouble: 3
 
 Function: "y0_downward":
 double: 3
-float: 4
-ldouble: 4
+float: 8
+ldouble: 7
 
 Function: "y0_towardzero":
 double: 3
-float: 3
+float: 8
 ldouble: 3
 
 Function: "y0_upward":
 double: 3
-float: 5
-ldouble: 3
+float: 8
+ldouble: 4
 
 Function: "y1":
 double: 3
-float: 2
-ldouble: 2
+float: 9
+ldouble: 5
 
 Function: "y1_downward":
-double: 3
-float: 2
-ldouble: 4
+double: 6
+float: 8
+ldouble: 5
 
 Function: "y1_towardzero":
 double: 3
-float: 2
+float: 9
 ldouble: 2
 
 Function: "y1_upward":
 double: 7
-float: 2
+float: 9
 ldouble: 5
 
 Function: "yn":
diff --git a/sysdeps/sparc/fpu/libm-test-ulps b/sysdeps/sparc/fpu/libm-test-ulps
index 74a5490ba7..c2e4649524 100644
--- a/sysdeps/sparc/fpu/libm-test-ulps
+++ b/sysdeps/sparc/fpu/libm-test-ulps
@@ -1066,43 +1066,43 @@  ldouble: 1
 
 Function: "j0":
 double: 2
-float: 8
+float: 9
 ldouble: 2
 
 Function: "j0_downward":
-double: 2
-float: 4
-ldouble: 4
+double: 5
+float: 9
+ldouble: 9
 
 Function: "j0_towardzero":
-double: 4
-float: 5
-ldouble: 4
+double: 6
+float: 9
+ldouble: 9
 
 Function: "j0_upward":
-double: 4
-float: 5
-ldouble: 5
+double: 9
+float: 9
+ldouble: 7
 
 Function: "j1":
-double: 2
+double: 4
 float: 9
 ldouble: 4
 
 Function: "j1_downward":
-double: 3
-float: 5
-ldouble: 4
+double: 5
+float: 8
+ldouble: 6
 
 Function: "j1_towardzero":
-double: 3
-float: 2
-ldouble: 4
+double: 4
+float: 8
+ldouble: 9
 
 Function: "j1_upward":
-double: 3
-float: 5
-ldouble: 3
+double: 9
+float: 9
+ldouble: 9
 
 Function: "jn":
 double: 4
@@ -1362,42 +1362,42 @@  ldouble: 4
 
 Function: "y0":
 double: 3
-float: 8
+float: 9
 ldouble: 3
 
 Function: "y0_downward":
 double: 3
-float: 6
-ldouble: 4
+float: 9
+ldouble: 7
 
 Function: "y0_towardzero":
-double: 3
-float: 3
+double: 4
+float: 9
 ldouble: 3
 
 Function: "y0_upward":
 double: 3
-float: 6
-ldouble: 3
+float: 9
+ldouble: 4
 
 Function: "y1":
 double: 3
-float: 2
-ldouble: 2
+float: 9
+ldouble: 5
 
 Function: "y1_downward":
-double: 3
-float: 2
-ldouble: 4
+double: 6
+float: 9
+ldouble: 5
 
 Function: "y1_towardzero":
 double: 3
-float: 2
+float: 9
 ldouble: 2
 
 Function: "y1_upward":
 double: 7
-float: 2
+float: 9
 ldouble: 5
 
 Function: "yn":
diff --git a/sysdeps/x86_64/fpu/libm-test-ulps b/sysdeps/x86_64/fpu/libm-test-ulps
index bd1fa63702..0edb95e14c 100644
--- a/sysdeps/x86_64/fpu/libm-test-ulps
+++ b/sysdeps/x86_64/fpu/libm-test-ulps
@@ -1317,50 +1317,50 @@  ldouble: 1
 
 Function: "j0":
 double: 2
-float: 8
+float: 9
 float128: 2
-ldouble: 2
+ldouble: 8
 
 Function: "j0_downward":
-double: 2
-float: 4
-float128: 4
+double: 5
+float: 9
+float128: 9
 ldouble: 6
 
 Function: "j0_towardzero":
-double: 5
-float: 6
-float128: 4
+double: 6
+float: 9
+float128: 9
 ldouble: 6
 
 Function: "j0_upward":
-double: 4
-float: 5
-float128: 5
+double: 9
+float: 9
+float128: 7
 ldouble: 6
 
 Function: "j1":
-double: 2
+double: 4
 float: 9
 float128: 4
-ldouble: 5
+ldouble: 9
 
 Function: "j1_downward":
-double: 3
-float: 5
-float128: 4
-ldouble: 4
+double: 6
+float: 8
+float128: 6
+ldouble: 8
 
 Function: "j1_towardzero":
-double: 3
-float: 2
-float128: 4
+double: 4
+float: 9
+float128: 9
 ldouble: 4
 
 Function: "j1_upward":
-double: 3
-float: 5
-float128: 3
+double: 9
+float: 9
+float128: 9
 ldouble: 3
 
 Function: "jn":
@@ -1753,27 +1753,27 @@  ldouble: 5
 
 Function: "y0":
 double: 3
-float: 8
+float: 9
 float128: 3
-ldouble: 1
+ldouble: 2
 
 Function: "y0_downward":
-double: 3
-float: 6
-float128: 4
-ldouble: 5
+double: 4
+float: 9
+float128: 7
+ldouble: 7
 
 Function: "y0_towardzero":
-double: 3
-float: 3
+double: 4
+float: 9
 float128: 3
-ldouble: 6
+ldouble: 8
 
 Function: "y0_upward":
 double: 3
-float: 6
-float128: 3
-ldouble: 5
+float: 9
+float128: 4
+ldouble: 7
 
 Function: "y1":
 double: 6
@@ -1782,14 +1782,14 @@  float128: 5
 ldouble: 3
 
 Function: "y1_downward":
-double: 3
-float: 2
+double: 6
+float: 9
 float128: 5
 ldouble: 7
 
 Function: "y1_towardzero":
 double: 4
-float: 5
+float: 9
 float128: 6
 ldouble: 5