path: root/sysdeps/x86_64/fpu/multiarch/svml_s_cbrtf4_core_sse4.S

/* Function cbrtf vectorized with SSE4.
   Copyright (C) 2021 Free Software Foundation, Inc.
   This file is part of the GNU C Library.

   The GNU C Library is free software; you can redistribute it and/or
   modify it under the terms of the GNU Lesser General Public
   License as published by the Free Software Foundation; either
   version 2.1 of the License, or (at your option) any later version.

   The GNU C Library is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
   Lesser General Public License for more details.

   You should have received a copy of the GNU Lesser General Public
   License along with the GNU C Library; if not, see
   https://www.gnu.org/licenses/.  */

/*
 * ALGORITHM DESCRIPTION:
 *
 *     x=2^{3*k+j} * 1.b1 b2 ... b5 b6 ... b52
 *     Let r=(x*2^{-3k-j} - 1.b1 b2 ... b5 1)* rcp[b1 b2 ..b5],
 *     where rcp[b1 b2 .. b5]=1/(1.b1 b2 b3 b4 b5 1) in single precision
 *     cbrtf(2^j * 1. b1 b2 .. b5 1) is approximated as T[j][b1..b5]+D[j][b1..b5]
 *     (T stores the high 24 bits, D stores the low order bits)
 *     Result=2^k*T+(2^k*T*r)*P+2^k*D
 *      where P=p1+p2*r+..
 *
 */

/* Offsets for data table __svml_scbrt_data_internal
 */
#define _sRcp                         	0
#define _sCbrtHL                      	128
#define _sP2                          	512
#define _sP1                          	528
#define _sMantissaMask                	544
#define _sMantissaMask1               	560
#define _sExpMask                     	576
#define _sExpMask1                    	592
#define _iRcpIndexMask                	608
#define _iBExpMask                    	624
#define _iSignMask                    	640
#define _iBias                        	656
#define _iOne                         	672
#define _i555                         	688
#define _iAbsMask                     	704
#define _iSubConst                    	720
#define _iCmpConst                    	736

#include <sysdep.h>

        .text
	.section .text.sse4,"ax",@progbits
ENTRY(_ZGVbN4v_cbrtf_sse4)
        subq      $72, %rsp
        cfi_def_cfa_offset(80)

/*
 * Load constants
 * Reciprocal index calculation
 */
        movaps    %xmm0, %xmm2
        movdqu    _iRcpIndexMask+__svml_scbrt_data_internal(%rip), %xmm3
        psrld     $16, %xmm2
        pand      %xmm2, %xmm3

/* Load reciprocal value */
        lea       __svml_scbrt_data_internal(%rip), %rdx
        pshufd    $1, %xmm3, %xmm5

/* Get signed biased exponent */
        psrld     $7, %xmm2
        movd      %xmm3, %eax
        movd      %xmm5, %ecx

/* Get absolute biased exponent */
        movdqu    _iBExpMask+__svml_scbrt_data_internal(%rip), %xmm15

/*
 * Calculate exponent/3
 * i555Exp=(2^{12}-1)/3*exponent
 */
        movdqu    _i555+__svml_scbrt_data_internal(%rip), %xmm14
        pand      %xmm2, %xmm15
        movslq    %eax, %rax
        movdqa    %xmm14, %xmm5
        movslq    %ecx, %rcx
        psrlq     $32, %xmm14
        pmuludq   %xmm15, %xmm5
        movd      (%rdx,%rax), %xmm4
        movd      (%rdx,%rcx), %xmm6
        punpckldq %xmm6, %xmm4
        movdqa    %xmm15, %xmm6
        psrlq     $32, %xmm15
        pmuludq   %xmm14, %xmm15
        pshufd    $2, %xmm3, %xmm7
        psllq     $32, %xmm15
        pshufd    $3, %xmm3, %xmm8
        movd      %xmm7, %esi
        movd      %xmm8, %edi

/* Argument reduction */
        movups    _sMantissaMask+__svml_scbrt_data_internal(%rip), %xmm12
        movups    _sMantissaMask1+__svml_scbrt_data_internal(%rip), %xmm11
        andps     %xmm0, %xmm12
        pand      .FLT_17(%rip), %xmm5
        andps     %xmm0, %xmm11
        movslq    %esi, %rsi
        por       %xmm15, %xmm5
        movslq    %edi, %rdi

/* Get K (exponent=3*k+j) */
        psrld     $12, %xmm5
        orps      _sExpMask+__svml_scbrt_data_internal(%rip), %xmm12
        orps      _sExpMask1+__svml_scbrt_data_internal(%rip), %xmm11
        psubd     _iOne+__svml_scbrt_data_internal(%rip), %xmm6

/* r=y-y` */
        subps     %xmm11, %xmm12

/* Get J */
        psubd     %xmm5, %xmm6
        movdqu    _iAbsMask+__svml_scbrt_data_internal(%rip), %xmm1
        psubd     %xmm5, %xmm6
        movd      (%rdx,%rsi), %xmm10
        pand      %xmm0, %xmm1
        movd      (%rdx,%rdi), %xmm9
        psubd     %xmm5, %xmm6
        punpckldq %xmm9, %xmm10

/* Get 128*J */
        pslld     $7, %xmm6
        punpcklqdq %xmm10, %xmm4

/*
 * iCbrtIndex=4*l+128*j
 * Zero index if callout expected
 */
        paddd     %xmm6, %xmm3
        psubd     _iSubConst+__svml_scbrt_data_internal(%rip), %xmm1
        pcmpgtd   _iCmpConst+__svml_scbrt_data_internal(%rip), %xmm1

/* r=(y-y`)*rcp_table(y`) */
        mulps     %xmm12, %xmm4
        movmskps  %xmm1, %eax

/* Biased exponent-1 */
        movdqu    _iSignMask+__svml_scbrt_data_internal(%rip), %xmm13
        pandn     %xmm3, %xmm1

/*
 * Add 2/3*(bias-1)+1 to (k+1/3*(bias-1))
 * Attach sign to exponent
 */
        movdqu    _iBias+__svml_scbrt_data_internal(%rip), %xmm12
        pand      %xmm13, %xmm2
        paddd     %xmm5, %xmm12

/* Load Cbrt table Hi & Lo values */
        movd      %xmm1, %r8d
        por       %xmm2, %xmm12
        pshufd    $1, %xmm1, %xmm2
        pslld     $23, %xmm12
        pshufd    $2, %xmm1, %xmm7
        pshufd    $3, %xmm1, %xmm1
        movd      %xmm2, %r9d
        movd      %xmm7, %r10d
        movd      %xmm1, %r11d

/* Polynomial:    p1+r*(p2*r+r*(p3+r*p4)) */
        movups    _sP2+__svml_scbrt_data_internal(%rip), %xmm11
        mulps     %xmm4, %xmm11
        movslq    %r8d, %r8
        addps     _sP1+__svml_scbrt_data_internal(%rip), %xmm11
        movslq    %r9d, %r9
        movslq    %r10d, %r10
        movslq    %r11d, %r11
        movd      128(%rdx,%r8), %xmm10
        movd      128(%rdx,%r9), %xmm3
        movd      128(%rdx,%r10), %xmm9
        movd      128(%rdx,%r11), %xmm8
        punpckldq %xmm3, %xmm10
        punpckldq %xmm8, %xmm9
        punpcklqdq %xmm9, %xmm10

/* sCbrtHi *= 2^k */
        mulps     %xmm10, %xmm12

/* T`*r */
        mulps     %xmm12, %xmm4

/* (T`*r)*P */
        mulps     %xmm4, %xmm11

/*
 * T`*r*P+D`
 * result = T`+(T`*r*P+D`)
 */
        addps     %xmm11, %xmm12
        testl     %eax, %eax

/* Go to special inputs processing branch */
        jne       L(SPECIAL_VALUES_BRANCH)
                                # LOE rbx rbp r12 r13 r14 r15 eax xmm0 xmm12

/* Restore registers
 * and exit the function
 */

L(EXIT):
        movaps    %xmm12, %xmm0
        addq      $72, %rsp
        cfi_def_cfa_offset(8)
        ret
        cfi_def_cfa_offset(80)

/* Branch to process
 * special inputs
 */

L(SPECIAL_VALUES_BRANCH):
        movups    %xmm0, 32(%rsp)
        movups    %xmm12, 48(%rsp)
                                # LOE rbx rbp r12 r13 r14 r15 eax

        xorl      %edx, %edx
        movq      %r12, 16(%rsp)
        cfi_offset(12, -64)
        movl      %edx, %r12d
        movq      %r13, 8(%rsp)
        cfi_offset(13, -72)
        movl      %eax, %r13d
        movq      %r14, (%rsp)
        cfi_offset(14, -80)
                                # LOE rbx rbp r15 r12d r13d

/* Range mask
 * bits check
 */

L(RANGEMASK_CHECK):
        btl       %r12d, %r13d

/* Call scalar math function */
        jc        L(SCALAR_MATH_CALL)
                                # LOE rbx rbp r15 r12d r13d

/* Special inputs
 * processing loop
 */

L(SPECIAL_VALUES_LOOP):
        incl      %r12d
        cmpl      $4, %r12d

/* Check bits in range mask */
        jl        L(RANGEMASK_CHECK)
                                # LOE rbx rbp r15 r12d r13d

        movq      16(%rsp), %r12
        cfi_restore(12)
        movq      8(%rsp), %r13
        cfi_restore(13)
        movq      (%rsp), %r14
        cfi_restore(14)
        movups    48(%rsp), %xmm12

/* Go to exit */
        jmp       L(EXIT)
        cfi_offset(12, -64)
        cfi_offset(13, -72)
        cfi_offset(14, -80)
                                # LOE rbx rbp r12 r13 r14 r15 xmm12

/* Scalar math fucntion call
 * to process special input
 */

L(SCALAR_MATH_CALL):
        movl      %r12d, %r14d
        movss     32(%rsp,%r14,4), %xmm0
        call      cbrtf@PLT
                                # LOE rbx rbp r14 r15 r12d r13d xmm0

        movss     %xmm0, 48(%rsp,%r14,4)

/* Process special inputs in loop */
        jmp       L(SPECIAL_VALUES_LOOP)
                                # LOE rbx rbp r15 r12d r13d
END(_ZGVbN4v_cbrtf_sse4)

        .section .rodata, "a"
        .align 16

#ifdef __svml_scbrt_data_internal_typedef
typedef unsigned int VUINT32;
typedef struct
{
        __declspec(align(16)) VUINT32 _sRcp[32][1];
        __declspec(align(16)) VUINT32 _sCbrtHL[96][1];
        __declspec(align(16)) VUINT32 _sP2[4][1];
        __declspec(align(16)) VUINT32 _sP1[4][1];
        __declspec(align(16)) VUINT32 _sMantissaMask[4][1];
        __declspec(align(16)) VUINT32 _sMantissaMask1[4][1];
        __declspec(align(16)) VUINT32 _sExpMask[4][1];
        __declspec(align(16)) VUINT32 _sExpMask1[4][1];
        __declspec(align(16)) VUINT32 _iRcpIndexMask[4][1];
        __declspec(align(16)) VUINT32 _iBExpMask[4][1];
        __declspec(align(16)) VUINT32 _iSignMask[4][1];
        __declspec(align(16)) VUINT32 _iBias[4][1];
        __declspec(align(16)) VUINT32 _iOne[4][1];
        __declspec(align(16)) VUINT32 _i555[4][1];
        __declspec(align(16)) VUINT32 _iAbsMask[4][1];
        __declspec(align(16)) VUINT32 _iSubConst[4][1];
        __declspec(align(16)) VUINT32 _iCmpConst[4][1];
} __svml_scbrt_data_internal;
#endif
__svml_scbrt_data_internal:
        /*== _sRcp ==*/
        .long 0xBF7C0FC1  /* (1/(1+0/32+1/64)) = -.984615 */
        .long 0xBF74898D  /* (1/(1+1/32+1/64)) = -.955224 */
        .long 0xBF6D7304  /* (1/(1+2/32+1/64)) = -.927536 */
        .long 0xBF66C2B4  /* (1/(1+3/32+1/64)) = -.901408 */
        .long 0xBF607038  /* (1/(1+4/32+1/64)) = -.876712 */
        .long 0xBF5A740E  /* (1/(1+5/32+1/64)) = -.853333 */
        .long 0xBF54C77B  /* (1/(1+6/32+1/64)) = -.831169 */
        .long 0xBF4F6475  /* (1/(1+7/32+1/64)) = -.810127 */
        .long 0xBF4A4588  /* (1/(1+8/32+1/64)) = -.790123 */
        .long 0xBF4565C8  /* (1/(1+9/32+1/64)) = -.771084 */
        .long 0xBF40C0C1  /* (1/(1+10/32+1/64)) = -.752941 */
        .long 0xBF3C5264  /* (1/(1+11/32+1/64)) = -.735632 */
        .long 0xBF381703  /* (1/(1+12/32+1/64)) = -.719101 */
        .long 0xBF340B41  /* (1/(1+13/32+1/64)) = -.703297 */
        .long 0xBF302C0B  /* (1/(1+14/32+1/64)) = -.688172 */
        .long 0xBF2C7692  /* (1/(1+15/32+1/64)) = -.673684 */
        .long 0xBF28E83F  /* (1/(1+16/32+1/64)) = -.659794 */
        .long 0xBF257EB5  /* (1/(1+17/32+1/64)) = -.646465 */
        .long 0xBF2237C3  /* (1/(1+18/32+1/64)) = -.633663 */
        .long 0xBF1F1166  /* (1/(1+19/32+1/64)) = -.621359 */
        .long 0xBF1C09C1  /* (1/(1+20/32+1/64)) = -.609524 */
        .long 0xBF191F1A  /* (1/(1+21/32+1/64)) = -.598131 */
        .long 0xBF164FDA  /* (1/(1+22/32+1/64)) = -.587156 */
        .long 0xBF139A86  /* (1/(1+23/32+1/64)) = -.576577 */
        .long 0xBF10FDBC  /* (1/(1+24/32+1/64)) = -.566372 */
        .long 0xBF0E7835  /* (1/(1+25/32+1/64)) = -.556522 */
        .long 0xBF0C08C1  /* (1/(1+26/32+1/64)) = -.547009 */
        .long 0xBF09AE41  /* (1/(1+27/32+1/64)) = -.537815 */
        .long 0xBF0767AB  /* (1/(1+28/32+1/64)) = -.528926 */
        .long 0xBF053408  /* (1/(1+29/32+1/64)) = -.520325 */
        .long 0xBF03126F  /* (1/(1+30/32+1/64)) = -.512    */
        .long 0xBF010204  /* (1/(1+31/32+1/64)) = -.503937 */
        /*== _sCbrtHL ==*/
        .align 16
        .long 0x3F80A9C9    /* HI((2^0*(1+0/32+1/64))^(1/3)) = 1.005181 */
        .long 0x3F81F833    /* HI((2^0*(1+1/32+1/64))^(1/3)) = 1.015387 */
        .long 0x3F834007    /* HI((2^0*(1+2/32+1/64))^(1/3)) = 1.025391 */
        .long 0x3F848194    /* HI((2^0*(1+3/32+1/64))^(1/3)) = 1.035204 */
        .long 0x3F85BD25    /* HI((2^0*(1+4/32+1/64))^(1/3)) = 1.044835 */
        .long 0x3F86F300    /* HI((2^0*(1+5/32+1/64))^(1/3)) = 1.054291 */
        .long 0x3F882365    /* HI((2^0*(1+6/32+1/64))^(1/3)) = 1.06358  */
        .long 0x3F894E90    /* HI((2^0*(1+7/32+1/64))^(1/3)) = 1.07271  */
        .long 0x3F8A74B9    /* HI((2^0*(1+8/32+1/64))^(1/3)) = 1.081687 */
        .long 0x3F8B9615    /* HI((2^0*(1+9/32+1/64))^(1/3)) = 1.090518 */
        .long 0x3F8CB2D4    /* HI((2^0*(1+10/32+1/64))^(1/3)) = 1.099207 */
        .long 0x3F8DCB24    /* HI((2^0*(1+11/32+1/64))^(1/3)) = 1.107762 */
        .long 0x3F8EDF31    /* HI((2^0*(1+12/32+1/64))^(1/3)) = 1.116186 */
        .long 0x3F8FEF22    /* HI((2^0*(1+13/32+1/64))^(1/3)) = 1.124485 */
        .long 0x3F90FB1F    /* HI((2^0*(1+14/32+1/64))^(1/3)) = 1.132664 */
        .long 0x3F92034C    /* HI((2^0*(1+15/32+1/64))^(1/3)) = 1.140726 */
        .long 0x3F9307CA    /* HI((2^0*(1+16/32+1/64))^(1/3)) = 1.148675 */
        .long 0x3F9408B9    /* HI((2^0*(1+17/32+1/64))^(1/3)) = 1.156516 */
        .long 0x3F950638    /* HI((2^0*(1+18/32+1/64))^(1/3)) = 1.164252 */
        .long 0x3F960064    /* HI((2^0*(1+19/32+1/64))^(1/3)) = 1.171887 */
        .long 0x3F96F759    /* HI((2^0*(1+20/32+1/64))^(1/3)) = 1.179423 */
        .long 0x3F97EB2F    /* HI((2^0*(1+21/32+1/64))^(1/3)) = 1.186865 */
        .long 0x3F98DC01    /* HI((2^0*(1+22/32+1/64))^(1/3)) = 1.194214 */
        .long 0x3F99C9E5    /* HI((2^0*(1+23/32+1/64))^(1/3)) = 1.201474 */
        .long 0x3F9AB4F2    /* HI((2^0*(1+24/32+1/64))^(1/3)) = 1.208647 */
        .long 0x3F9B9D3D    /* HI((2^0*(1+25/32+1/64))^(1/3)) = 1.215736 */
        .long 0x3F9C82DA    /* HI((2^0*(1+26/32+1/64))^(1/3)) = 1.222743 */
        .long 0x3F9D65DD    /* HI((2^0*(1+27/32+1/64))^(1/3)) = 1.229671 */
        .long 0x3F9E4659    /* HI((2^0*(1+28/32+1/64))^(1/3)) = 1.236522 */
        .long 0x3F9F245F    /* HI((2^0*(1+29/32+1/64))^(1/3)) = 1.243297 */
        .long 0x3FA00000    /* HI((2^0*(1+30/32+1/64))^(1/3)) = 1.25     */
        .long 0x3FA0D94C    /* HI((2^0*(1+31/32+1/64))^(1/3)) = 1.256631 */
        .long 0x3FA21B02    /* HI((2^1*(1+0/32+1/64))^(1/3)) = 1.266449 */
        .long 0x3FA3C059    /* HI((2^1*(1+1/32+1/64))^(1/3)) = 1.279307 */
        .long 0x3FA55D61    /* HI((2^1*(1+2/32+1/64))^(1/3)) = 1.291912 */
        .long 0x3FA6F282    /* HI((2^1*(1+3/32+1/64))^(1/3)) = 1.304276 */
        .long 0x3FA8801A    /* HI((2^1*(1+4/32+1/64))^(1/3)) = 1.316409 */
        .long 0x3FAA067E    /* HI((2^1*(1+5/32+1/64))^(1/3)) = 1.328323 */
        .long 0x3FAB8602    /* HI((2^1*(1+6/32+1/64))^(1/3)) = 1.340027 */
        .long 0x3FACFEEF    /* HI((2^1*(1+7/32+1/64))^(1/3)) = 1.35153  */
        .long 0x3FAE718E    /* HI((2^1*(1+8/32+1/64))^(1/3)) = 1.36284  */
        .long 0x3FAFDE1F    /* HI((2^1*(1+9/32+1/64))^(1/3)) = 1.373966 */
        .long 0x3FB144E1    /* HI((2^1*(1+10/32+1/64))^(1/3)) = 1.384915 */
        .long 0x3FB2A60D    /* HI((2^1*(1+11/32+1/64))^(1/3)) = 1.395692 */
        .long 0x3FB401DA    /* HI((2^1*(1+12/32+1/64))^(1/3)) = 1.406307 */
        .long 0x3FB5587B    /* HI((2^1*(1+13/32+1/64))^(1/3)) = 1.416763 */
        .long 0x3FB6AA20    /* HI((2^1*(1+14/32+1/64))^(1/3)) = 1.427067 */
        .long 0x3FB7F6F7    /* HI((2^1*(1+15/32+1/64))^(1/3)) = 1.437224 */
        .long 0x3FB93F29    /* HI((2^1*(1+16/32+1/64))^(1/3)) = 1.44724  */
        .long 0x3FBA82E1    /* HI((2^1*(1+17/32+1/64))^(1/3)) = 1.457119 */
        .long 0x3FBBC244    /* HI((2^1*(1+18/32+1/64))^(1/3)) = 1.466866 */
        .long 0x3FBCFD77    /* HI((2^1*(1+19/32+1/64))^(1/3)) = 1.476485 */
        .long 0x3FBE349B    /* HI((2^1*(1+20/32+1/64))^(1/3)) = 1.48598  */
        .long 0x3FBF67D3    /* HI((2^1*(1+21/32+1/64))^(1/3)) = 1.495356 */
        .long 0x3FC0973C    /* HI((2^1*(1+22/32+1/64))^(1/3)) = 1.504615 */
        .long 0x3FC1C2F6    /* HI((2^1*(1+23/32+1/64))^(1/3)) = 1.513762 */
        .long 0x3FC2EB1A    /* HI((2^1*(1+24/32+1/64))^(1/3)) = 1.5228   */
        .long 0x3FC40FC6    /* HI((2^1*(1+25/32+1/64))^(1/3)) = 1.531731 */
        .long 0x3FC53112    /* HI((2^1*(1+26/32+1/64))^(1/3)) = 1.54056  */
        .long 0x3FC64F16    /* HI((2^1*(1+27/32+1/64))^(1/3)) = 1.549289 */
        .long 0x3FC769EB    /* HI((2^1*(1+28/32+1/64))^(1/3)) = 1.55792  */
        .long 0x3FC881A6    /* HI((2^1*(1+29/32+1/64))^(1/3)) = 1.566457 */
        .long 0x3FC9965D    /* HI((2^1*(1+30/32+1/64))^(1/3)) = 1.574901 */
        .long 0x3FCAA825    /* HI((2^1*(1+31/32+1/64))^(1/3)) = 1.583256 */
        .long 0x3FCC3D79    /* HI((2^2*(1+0/32+1/64))^(1/3)) = 1.595626 */
        .long 0x3FCE5054    /* HI((2^2*(1+1/32+1/64))^(1/3)) = 1.611826 */
        .long 0x3FD058B8    /* HI((2^2*(1+2/32+1/64))^(1/3)) = 1.627707 */
        .long 0x3FD25726    /* HI((2^2*(1+3/32+1/64))^(1/3)) = 1.643285 */
        .long 0x3FD44C15    /* HI((2^2*(1+4/32+1/64))^(1/3)) = 1.658572 */
        .long 0x3FD637F2    /* HI((2^2*(1+5/32+1/64))^(1/3)) = 1.673582 */
        .long 0x3FD81B24    /* HI((2^2*(1+6/32+1/64))^(1/3)) = 1.688328 */
        .long 0x3FD9F60B    /* HI((2^2*(1+7/32+1/64))^(1/3)) = 1.702821 */
        .long 0x3FDBC8FE    /* HI((2^2*(1+8/32+1/64))^(1/3)) = 1.717071 */
        .long 0x3FDD9452    /* HI((2^2*(1+9/32+1/64))^(1/3)) = 1.731089 */
        .long 0x3FDF5853    /* HI((2^2*(1+10/32+1/64))^(1/3)) = 1.744883 */
        .long 0x3FE1154B    /* HI((2^2*(1+11/32+1/64))^(1/3)) = 1.758462 */
        .long 0x3FE2CB7F    /* HI((2^2*(1+12/32+1/64))^(1/3)) = 1.771835 */
        .long 0x3FE47B2E    /* HI((2^2*(1+13/32+1/64))^(1/3)) = 1.785009 */
        .long 0x3FE62496    /* HI((2^2*(1+14/32+1/64))^(1/3)) = 1.797992 */
        .long 0x3FE7C7F0    /* HI((2^2*(1+15/32+1/64))^(1/3)) = 1.810789 */
        .long 0x3FE96571    /* HI((2^2*(1+16/32+1/64))^(1/3)) = 1.823408 */
        .long 0x3FEAFD4C    /* HI((2^2*(1+17/32+1/64))^(1/3)) = 1.835855 */
        .long 0x3FEC8FB3    /* HI((2^2*(1+18/32+1/64))^(1/3)) = 1.848135 */
        .long 0x3FEE1CD3    /* HI((2^2*(1+19/32+1/64))^(1/3)) = 1.860255 */
        .long 0x3FEFA4D7    /* HI((2^2*(1+20/32+1/64))^(1/3)) = 1.872218 */
        .long 0x3FF127E9    /* HI((2^2*(1+21/32+1/64))^(1/3)) = 1.88403  */
        .long 0x3FF2A62F    /* HI((2^2*(1+22/32+1/64))^(1/3)) = 1.895697 */
        .long 0x3FF41FD0    /* HI((2^2*(1+23/32+1/64))^(1/3)) = 1.907221 */
        .long 0x3FF594EE    /* HI((2^2*(1+24/32+1/64))^(1/3)) = 1.918607 */
        .long 0x3FF705AC    /* HI((2^2*(1+25/32+1/64))^(1/3)) = 1.929861 */
        .long 0x3FF8722A    /* HI((2^2*(1+26/32+1/64))^(1/3)) = 1.940984 */
        .long 0x3FF9DA86    /* HI((2^2*(1+27/32+1/64))^(1/3)) = 1.951981 */
        .long 0x3FFB3EDE    /* HI((2^2*(1+28/32+1/64))^(1/3)) = 1.962856 */
        .long 0x3FFC9F4E    /* HI((2^2*(1+29/32+1/64))^(1/3)) = 1.973612 */
        .long 0x3FFDFBF2    /* HI((2^2*(1+30/32+1/64))^(1/3)) = 1.984251 */
        .long 0x3FFF54E3    /* HI((2^2*(1+31/32+1/64))^(1/3)) = 1.994778 */
        .align 16
        .long 0xBDE3A962, 0xBDE3A962, 0xBDE3A962, 0xBDE3A962  /* _sP2 */
        .align 16
        .long 0x3EAAAC91, 0x3EAAAC91, 0x3EAAAC91, 0x3EAAAC91  /* _sP1 */
        .align 16
        .long 0x007fffff, 0x007fffff, 0x007fffff, 0x007fffff  /* _sMantissaMask (EXP_MSK3) */
        .align 16
        .long 0x007e0000, 0x007e0000, 0x007e0000, 0x007e0000  /* _sMantissaMask1 (SIG_MASK) */
        .align 16
        .long 0xBF800000, 0xBF800000, 0xBF800000, 0xBF800000  /* _sExpMask  (EXP_MASK) */
        .align 16
        .long 0xBF820000, 0xBF820000, 0xBF820000, 0xBF820000  /* _sExpMask1 (EXP_MASK2) */
        .align 16
        .long 0x0000007c, 0x0000007c, 0x0000007c, 0x0000007c  /* _iRcpIndexMask */
        .align 16
        .long 0x000000ff, 0x000000ff, 0x000000ff, 0x000000ff  /* _iBExpMask */
        .align 16
        .long 0x00000100, 0x00000100, 0x00000100, 0x00000100  /* _iSignMask */
        .align 16
        .long 0x00000055, 0x00000055, 0x00000055, 0x00000055  /* _iBias */
        .align 16
        .long 0x00000001, 0x00000001, 0x00000001, 0x00000001  /* _iOne */
        .align 16
        .long 0x00000555, 0x00000555, 0x00000555, 0x00000555  /* _i555 */
        .align 16
        .long 0x7fffffff, 0x7fffffff, 0x7fffffff, 0x7fffffff  /* _iAbsMask */
        .align 16
        .long 0x80800000, 0x80800000, 0x80800000, 0x80800000  /* _iSubConst */
        .align 16
        .long 0xFEFFFFFF, 0xFEFFFFFF, 0xFEFFFFFF, 0xFEFFFFFF  /* _iCmpConst */
        .align 16
        .type	__svml_scbrt_data_internal,@object
        .size	__svml_scbrt_data_internal,.-__svml_scbrt_data_internal
        .align 16

.FLT_17:
        .long	0xffffffff,0x00000000,0xffffffff,0x00000000
        .type	.FLT_17,@object
        .size	.FLT_17,16