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-.file "erfcf.s"
-
-
-// Copyright (c) 2002 - 2005, Intel Corporation
-// All rights reserved.
-//
-// Contributed 2002 by the Intel Numerics Group, Intel Corporation
-//
-// Redistribution and use in source and binary forms, with or without
-// modification, are permitted provided that the following conditions are
-// met:
-//
-// * Redistributions of source code must retain the above copyright
-// notice, this list of conditions and the following disclaimer.
-//
-// * Redistributions in binary form must reproduce the above copyright
-// notice, this list of conditions and the following disclaimer in the
-// documentation and/or other materials provided with the distribution.
-//
-// * The name of Intel Corporation may not be used to endorse or promote
-// products derived from this software without specific prior written
-// permission.
-
-// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 
-// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 
-// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
-// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL INTEL OR ITS 
-// CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
-// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, 
-// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR 
-// PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY 
-// OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY OR TORT (INCLUDING
-// NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS 
-// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 
-// 
-// Intel Corporation is the author of this code, and requests that all
-// problem reports or change requests be submitted to it directly at 
-// http://www.intel.com/software/products/opensource/libraries/num.htm.
-//
-// History
-//==============================================================
-// 01/17/02  Initial version
-// 05/20/02  Cleaned up namespace and sf0 syntax
-// 02/06/03  Reordered header: .section, .global, .proc, .align
-// 03/31/05  Reformatted delimiters between data tables
-//
-// API
-//==============================================================
-// float erfcf(float)
-//
-// Overview of operation
-//==============================================================
-// 1. 0 <= x <= 10.06
-//    
-//    erfcf(x)  = P15(x) * exp( -x^2 )
-//
-//    Comment:
-//
-//    Let x(0)=0, x(i) = 2^(i), i=1,...3, x(4)= 10.06
-// 
-//    Let x(i)<= x < x(i+1).
-//    We can find i as exponent of argument x (let i = 0 for 0<= x < 2  )
-// 
-//    Let P15(x) - polynomial approximation of degree 15 for function
-//    erfcf(x) * exp( x^2) and x(i) <= x <= x(i+1), i = 0,1,2,3
-//    Polynomial coeffitients we have in the table erfc_p_table.
-//
-//    So we can find result for erfcf(x) as above.
-//    Algorithm description for exp function see below.
-//                     
-// 2. -4.4 <= x < 0
-//
-//    erfcf(x)  = 2.0 - erfcf(-x)
-//
-// 3. x > 10.06
-//
-//    erfcf(x)  ~=~ 0.0
-//
-// 4. x < -4.4
-//            
-//    erfcf(x)  ~=~ 2.0
-
-// Special values 
-//==============================================================
-// erfcf(+0)    = 1.0
-// erfcf(-0)    = 1.0
-
-// erfcf(+qnan) = +qnan 
-// erfcf(-qnan) = -qnan 
-// erfcf(+snan) = +qnan 
-// erfcf(-snan) = -qnan 
-
-// erfcf(-inf)  = 2.0 
-// erfcf(+inf)  = +0
-
-//==============================================================
-// Take double exp(double) from libm_64.
-//
-// Overview of operation
-//==============================================================
-// Take the input x. w is "how many log2/128 in x?"
-//  w = x * 128/log2
-//  n = int(w)
-//  x = n log2/128 + r + delta
-
-//  n = 128M + index_1 + 2^4 index_2
-//  x = M log2 + (log2/128) index_1 + (log2/8) index_2 + r + delta
-
-//  exp(x) = 2^M  2^(index_1/128)  2^(index_2/8) exp(r) exp(delta)
-//       Construct 2^M
-//       Get 2^(index_1/128) from table_1;
-//       Get 2^(index_2/8)   from table_2;
-//       Calculate exp(r) by series
-//          r = x - n (log2/128)_high
-//          delta = - n (log2/128)_low
-//       Calculate exp(delta) as 1 + delta
-//
-// Comment for erfcf:
-//
-// Let exp(r) = 1 + x + 0.5*x^2 + (1/6)*x^3
-// Let delta  = 0.
-//==============================================================
-//
-// Registers used
-//==============================================================
-// Floating Point registers used: 
-// f8, input
-// f6,f7,f9 -> f11,  f32 -> f92
-
-// General registers used: 
-// r14 -> r22,r32 -> r50 
-
-// Predicate registers used:
-// p6 -> p15
-
-// Assembly macros
-//==============================================================
-EXP_AD_TB1             = r14
-exp_GR_sig_inv_ln2     = r15
-exp_TB1_size           = r16
-exp_GR_rshf_2to56      = r17
-exp_GR_exp_2tom56      = r18
-
-exp_GR_rshf            = r33
-EXP_AD_TB2             = r34
-EXP_AD_P               = r35
-exp_GR_N               = r36
-exp_GR_index_1         = r37
-exp_GR_index_2_16      = r38
-exp_GR_biased_M        = r39
-EXP_AD_T1              = r40
-EXP_AD_T2              = r41
-exp_TB2_size           = r42
-
-// GR for erfcf(x)
-//==============================================================
-GR_IndxPlusBias        = r19
-GR_ExpMask             = r20
-GR_BIAS                = r21
-GR_ShftPi_bias         = r22
-
-GR_P_POINT_1           = r43
-GR_P_POINT_2           = r44
-GR_P_POINT_3           = r45
-GR_P_POINT_4           = r46
-
-GR_ShftPi              = r47
-GR_EpsNorm             = r48
-
-GR_05                  = r49
-GR_1_by_6              = r50
-
-// GR for __libm_support call
-//==============================================================
-
-GR_SAVE_B0             = r43
-GR_SAVE_PFS            = r44
-GR_SAVE_GP             = r45
-GR_SAVE_SP             = r46
-
-GR_Parameter_X         = r47
-GR_Parameter_Y         = r48
-GR_Parameter_RESULT    = r49
-GR_Parameter_TAG       = r50
-
-
-// FR for exp(-x^2)
-//==============================================================
-FR_X                   = f10
-FR_Y                   = f1
-FR_RESULT              = f8
-
-EXP_2TOM56             = f6
-EXP_INV_LN2_2TO63      = f7
-EXP_W_2TO56_RSH        = f9
-exp_ln2_by_128_hi      = f11
-
-EXP_RSHF_2TO56         = f32 
-exp_ln2_by_128_lo      = f33 
-EXP_RSHF               = f34
-EXP_Nfloat             = f35 
-exp_r                  = f36
-exp_rsq                = f37
-EXP_2M                 = f38
-exp_S1                 = f39
-exp_T1                 = f40
-exp_P                  = f41
-exp_S                  = f42
-EXP_NORM_f8            = f43   
-exp_S2                 = f44
-exp_T2                 = f45
-
-// FR for erfcf(x)
-//==============================================================
-FR_AbsArg              = f46
-FR_Tmp                 = f47
-FR_Tmp1                = f48
-FR_Tmpf                = f49
-FR_NormX               = f50
-
-FR_A15                 = f51
-FR_A14                 = f52
-
-FR_A13                 = f53
-FR_A12                 = f54
-
-FR_A11                 = f55
-FR_A10                 = f56
-
-FR_A9                  = f57
-FR_A8                  = f58
-
-FR_A7                  = f59
-FR_A6                  = f60
-
-FR_A5                  = f61
-FR_A4                  = f62
-
-FR_A3                  = f63
-FR_A2                  = f64
-
-FR_A1                  = f65
-FR_A0                  = f66
-
-FR_P15_0_1             = f67
-FR_P15_1_1             = f68
-FR_P15_1_2             = f69
-FR_P15_2_1             = f70
-FR_P15_2_2             = f71
-FR_P15_3_1             = f72
-FR_P15_3_2             = f73
-FR_P15_4_1             = f74
-FR_P15_4_2             = f75
-FR_P15_7_1             = f76
-FR_P15_7_2             = f77
-FR_P15_8_1             = f78
-FR_P15_9_1             = f79
-FR_P15_9_2             = f80
-FR_P15_13_1            = f81
-FR_P15_14_1            = f82
-FR_P15_14_2            = f83
-
-FR_2                   = f84
-FR_05                  = f85
-FR_1_by_6              = f86
-FR_Pol                 = f87
-FR_Exp                 = f88
-
-FR_POS_ARG_ASYMP       = f89
-FR_NEG_ARG_ASYMP       = f90
-
-FR_UnfBound            = f91
-FR_EpsNorm             = f92
-
-// Data tables
-//==============================================================
-RODATA
-.align 16
-
-// ************* DO NOT CHANGE ORDER OF THESE TABLES ********************
-
-// double-extended 1/ln(2)
-// 3fff b8aa 3b29 5c17 f0bb be87fed0691d3e88
-// 3fff b8aa 3b29 5c17 f0bc 
-// For speed the significand will be loaded directly with a movl and setf.sig
-//   and the exponent will be bias+63 instead of bias+0.  Thus subsequent
-//   computations need to scale appropriately.
-// The constant 128/ln(2) is needed for the computation of w.  This is also 
-//   obtained by scaling the computations.
-//
-// Two shifting constants are loaded directly with movl and setf.d. 
-//   1. EXP_RSHF_2TO56 = 1.1000..00 * 2^(63-7) 
-//        This constant is added to x*1/ln2 to shift the integer part of
-//        x*128/ln2 into the rightmost bits of the significand.
-//        The result of this fma is EXP_W_2TO56_RSH.
-//   2. EXP_RSHF       = 1.1000..00 * 2^(63) 
-//        This constant is subtracted from EXP_W_2TO56_RSH * 2^(-56) to give
-//        the integer part of w, n, as a floating-point number.
-//        The result of this fms is EXP_Nfloat.
-
-
-LOCAL_OBJECT_START(exp_table_1)
-
-data4 0x4120f5c3, 0x408ccccd      //POS_ARG_ASYMP = 10.06, NEG_ARG_ASYMP = 4.4
-data4 0x41131Cdf, 0x00800000     //UnfBound ~=~ 9.1, EpsNorm ~=~ 1.1754944e-38
-//
-data8 0xb17217f7d1cf79ab , 0x00003ff7                            // ln2/128 hi
-data8 0xc9e3b39803f2f6af , 0x00003fb7                            // ln2/128 lo
-//
-// Table 1 is 2^(index_1/128) where
-// index_1 goes from 0 to 15
-//
-data8 0x8000000000000000 , 0x00003FFF
-data8 0x80B1ED4FD999AB6C , 0x00003FFF
-data8 0x8164D1F3BC030773 , 0x00003FFF
-data8 0x8218AF4373FC25EC , 0x00003FFF
-data8 0x82CD8698AC2BA1D7 , 0x00003FFF
-data8 0x8383594EEFB6EE37 , 0x00003FFF
-data8 0x843A28C3ACDE4046 , 0x00003FFF
-data8 0x84F1F656379C1A29 , 0x00003FFF
-data8 0x85AAC367CC487B15 , 0x00003FFF
-data8 0x8664915B923FBA04 , 0x00003FFF
-data8 0x871F61969E8D1010 , 0x00003FFF
-data8 0x87DB357FF698D792 , 0x00003FFF
-data8 0x88980E8092DA8527 , 0x00003FFF
-data8 0x8955EE03618E5FDD , 0x00003FFF
-data8 0x8A14D575496EFD9A , 0x00003FFF
-data8 0x8AD4C6452C728924 , 0x00003FFF
-LOCAL_OBJECT_END(exp_table_1)
-
-// Table 2 is 2^(index_1/8) where
-// index_2 goes from 0 to 7
-
-LOCAL_OBJECT_START(exp_table_2)
-
-data8 0x8000000000000000 , 0x00003FFF
-data8 0x8B95C1E3EA8BD6E7 , 0x00003FFF
-data8 0x9837F0518DB8A96F , 0x00003FFF
-data8 0xA5FED6A9B15138EA , 0x00003FFF
-data8 0xB504F333F9DE6484 , 0x00003FFF
-data8 0xC5672A115506DADD , 0x00003FFF
-data8 0xD744FCCAD69D6AF4 , 0x00003FFF
-data8 0xEAC0C6E7DD24392F , 0x00003FFF
-LOCAL_OBJECT_END(exp_table_2)
-
-LOCAL_OBJECT_START(erfc_p_table)
-
-// Pol_0 
-data8 0xBEA3260C63CB0446             //A15 = -5.70673541831883454676e-07
-data8 0x3EE63D6178077654             //A14 = +1.06047480138940182343e-05
-data8 0xBF18646BC5FC70A7             //A13 = -9.30491237309283694347e-05
-data8 0x3F40F92F909117FE             //A12 = +5.17986512144075019133e-04
-data8 0xBF611344289DE1E6             //A11 = -2.08438217390159994419e-03
-data8 0x3F7AF9FE6AD16DC0             //A10 = +6.58606893292862351928e-03
-data8 0xBF91D219E196CBA7             //A9 = -1.74030345858217321001e-02
-data8 0x3FA4AFDDA355854C             //A8 = +4.04042493708041968315e-02
-data8 0xBFB5D465BB7025AE             //A7 = -8.52721769916999425445e-02
-data8 0x3FC54C15A95B717D             //A6 = +1.66384418195672549029e-01
-data8 0xBFD340A75B4B1AB5             //A5 = -3.00821150926292166899e-01
-data8 0x3FDFFFC0BFCD247F             //A4 = +4.99984919839853542841e-01
-data8 0xBFE81270C361852B             //A3 = -7.52251035312075583309e-01
-data8 0x3FEFFFFFC67295FC             //A2 = +9.99999892800303301771e-01
-data8 0xBFF20DD74F8CD2BF             //A1 = -1.12837916445020868099e+00
-data8 0x3FEFFFFFFFFE7C1D             //A0 = +9.99999999988975570714e-01
-// Pol_1 
-data8 0xBDE8EC4BDD953B56             //A15 = -1.81338928934942767144e-10
-data8 0x3E43607F269E2A1C             //A14 = +9.02309090272196442358e-09
-data8 0xBE8C4D9E69C10E02             //A13 = -2.10875261143659275328e-07
-data8 0x3EC9CF2F84566725             //A12 = +3.07671055805877356583e-06
-data8 0xBF007980B1B46A4D             //A11 = -3.14228438702169818945e-05
-data8 0x3F2F4C3AD6DEF24A             //A10 = +2.38783056770846320260e-04
-data8 0xBF56F5129F8D30FA             //A9 = -1.40120333363130546426e-03
-data8 0x3F7AA6C7ABFC38EE             //A8 = +6.50671002200751820429e-03
-data8 0xBF98E7522CB84BEF             //A7 = -2.43199195666185511109e-02
-data8 0x3FB2F68EB1C3D073             //A6 = +7.40746673580490638637e-02
-data8 0xBFC7C16055AC6385             //A5 = -1.85588876564704611769e-01
-data8 0x3FD8A707AEF5A440             //A4 = +3.85194702967570635211e-01
-data8 0xBFE547BFE39AE2EA             //A3 = -6.65008492032112467310e-01
-data8 0x3FEE7C91BDF13578             //A2 = +9.52706213932898128515e-01
-data8 0xBFF1CB5B61F8C589             //A1 = -1.11214769621105541214e+00
-data8 0x3FEFEA56BC81FD37             //A0 = +9.97355812243688815239e-01
-// Pol_2 
-data8 0xBD302724A12F46E0             //A15 = -5.73866382814058809406e-14
-data8 0x3D98889B75D3102E             //A14 = +5.57829983681360947356e-12
-data8 0xBDF16EA15074A1E9             //A13 = -2.53671153922423457844e-10
-data8 0x3E3EC6E688CFEE5F             //A12 = +7.16581828336436419561e-09
-data8 0xBE82E5ED44C52609             //A11 = -1.40802202239825487803e-07
-data8 0x3EC120BE5CE42353             //A10 = +2.04180535157522081699e-06
-data8 0xBEF7B8B0311A1911             //A9 = -2.26225266204633600888e-05
-data8 0x3F29A281F43FC238             //A8 = +1.95577968156184077632e-04
-data8 0xBF55E19858B3B7A4             //A7 = -1.33552434527526534043e-03
-data8 0x3F7DAC8C3D12E5FD             //A6 = +7.24463253680473816303e-03
-data8 0xBF9FF9C04613FB47             //A5 = -3.12261622211693854028e-02
-data8 0x3FBB3D5DBF9D9366             //A4 = +1.06405123978743883370e-01
-data8 0xBFD224DE9F62C258             //A3 = -2.83500342989133623476e-01
-data8 0x3FE28A95CB8C6D3E             //A2 = +5.79417131000276437708e-01
-data8 0xBFEC21205D358672             //A1 = -8.79043752717008257224e-01
-data8 0x3FEDAE44D5EDFE5B             //A0 = +9.27523057776805771830e-01
-// Pol_3 
-data8 0xBCA3BCA734AC82F1             //A15 = -1.36952437983096410260e-16
-data8 0x3D16740DC3990612             //A14 = +1.99425676175410093285e-14
-data8 0xBD77F4353812C46A             //A13 = -1.36162367755616790260e-12
-data8 0x3DCFD0BE13C73DB4             //A12 = +5.78718761040355136007e-11
-data8 0xBE1D728DF71189B4             //A11 = -1.71406885583934105120e-09
-data8 0x3E64252C8CB710B5             //A10 = +3.75233795940731111303e-08
-data8 0xBEA514B93180F33D             //A9 = -6.28261292774310809962e-07
-data8 0x3EE1381118CC7151             //A8 = +8.21066421390821904504e-06
-data8 0xBF1634404FB0FA72             //A7 = -8.47019436358372148764e-05
-data8 0x3F46B2CBBCF0EB32             //A6 = +6.92700845213200923490e-04
-data8 0xBF725C2B445E6D81             //A5 = -4.48243046949004063741e-03
-data8 0x3F974E7CFA4D89D9             //A4 = +2.27603462002522228717e-02
-data8 0xBFB6D7BAC2E342D1             //A3 = -8.92292714882032736443e-02
-data8 0x3FD0D156AD9CE2A6             //A2 = +2.62777013343603696631e-01
-data8 0xBFE1C228572AADB0             //A1 = -5.54950876471982857725e-01
-data8 0x3FE8A739F48B9A3B             //A0 = +7.70413377406675619766e-01
-LOCAL_OBJECT_END(erfc_p_table)
-
-
-.section .text
-GLOBAL_LIBM_ENTRY(erfcf)
-
-// Form index i for table erfc_p_table as exponent of x 
-// We use i + bias in real calculations 
-{ .mlx
-      getf.exp       GR_IndxPlusBias = f8          // (sign + exp + bias) of x
-      movl           exp_GR_sig_inv_ln2 = 0xb8aa3b295c17f0bc //signif.of 1/ln2
-}
-{ .mlx
-      addl           EXP_AD_TB1    = @ltoff(exp_table_1), gp
-      movl           exp_GR_rshf_2to56 = 0x4768000000000000 // 1.100 2^(63+56)
-}
-;;
-
-// Form argument EXP_NORM_f8 for exp(-x^2)
-{ .mfi
-      ld8            EXP_AD_TB1    = [EXP_AD_TB1]
-      fcmp.ge.s1     p6,p7 = f8, f0                     // p6: x >= 0 ,p7: x<0
-      mov            GR_BIAS = 0x0FFFF
-}
-{ .mfi
-      mov            exp_GR_exp_2tom56 = 0xffff-56
-      fnma.s1        EXP_NORM_f8   = f8, f8, f0                       //  -x^2
-      mov            GR_ExpMask  = 0x1ffff
-}
-;;
-
-// Form two constants we need
-//  1/ln2 * 2^63  to compute  w = x * 1/ln2 * 128 
-//  1.1000..000 * 2^(63+63-7) to right shift int(w) into the significand
-
-// p9:  x = 0,+inf,-inf,nan,unnorm.
-// p10: x!= 0,+inf,-inf,nan,unnorm.
-{ .mfi
-      setf.sig       EXP_INV_LN2_2TO63 = exp_GR_sig_inv_ln2 // Form 1/ln2*2^63
-      fclass.m       p9,p10 = f8,0xef       
-      shl            GR_ShftPi_bias = GR_BIAS, 7
-}
-{ .mfi
-      setf.d         EXP_RSHF_2TO56 = exp_GR_rshf_2to56 //Const 1.10*2^(63+56)
-      nop.f          0
-      and            GR_IndxPlusBias = GR_IndxPlusBias, GR_ExpMask // i + bias
-}
-;;
-
-{ .mfi
-      alloc          r32 = ar.pfs, 0, 15, 4, 0
-(p6)  fma.s1         FR_AbsArg = f1, f0, f8                  // |x| if x >= 0
-      cmp.lt         p15,p0 = GR_IndxPlusBias, GR_BIAS//p15: i < 0 (for |x|<1)
-}
-{ .mlx
-      setf.exp       EXP_2TOM56 = exp_GR_exp_2tom56 //2^-56 for scaling Nfloat
-      movl           exp_GR_rshf = 0x43e8000000000000 //1.10 2^63,right shift.
-}
-;;
-
-{ .mfi
-      ldfps          FR_POS_ARG_ASYMP, FR_NEG_ARG_ASYMP = [EXP_AD_TB1],8
-      nop.f          0
-(p15) mov            GR_IndxPlusBias = GR_BIAS            //Let i = 0 if i < 0
-}
-{ .mlx
-      mov            GR_P_POINT_3 = 0x1A0
-      movl           GR_05 = 0x3fe0000000000000
-}
-;;
-
-// Form shift GR_ShftPi from the beginning of erfc_p_table 
-// to the polynomial with number i
-{ .mfi
-      ldfps          FR_UnfBound, FR_EpsNorm = [EXP_AD_TB1],8
-      nop.f          0
-      shl            GR_ShftPi = GR_IndxPlusBias, 7
-}
-{ .mfi
-      setf.d         EXP_RSHF = exp_GR_rshf   // Form right shift 1.100 * 2^63
-(p7)  fms.s1         FR_AbsArg = f1, f0, f8                   // |x|  if x < 0
-      mov            exp_TB1_size  = 0x100 
-}
-;;
-
-// Form pointer GR_P_POINT_3 to the beginning of erfc_p_table 
-{ .mfi
-      setf.d         FR_05 = GR_05
-      nop.f          0
-      sub            GR_ShftPi = GR_ShftPi,GR_ShftPi_bias
-}
-{ .mfb
-      add            GR_P_POINT_3 = GR_P_POINT_3, EXP_AD_TB1
-      nop.f          0
-(p9)  br.cond.spnt   SPECIAL                  // For x = 0,+inf,-inf,nan,unnorm
-}
-;;
-
-{ .mfi
-      add            GR_P_POINT_1 = GR_P_POINT_3, GR_ShftPi
-      nop.f          0
-      add            GR_P_POINT_2 = GR_P_POINT_3, GR_ShftPi
-}
-{ .mfi
-      ldfe           exp_ln2_by_128_hi  = [EXP_AD_TB1],16 
-      fma.s1         FR_NormX = f8,f1,f0
-      add            GR_P_POINT_3 = GR_P_POINT_3, GR_ShftPi
-}
-;;
-
-// Load coefficients for polynomial P15(x)
-{ .mfi
-      ldfpd          FR_A15, FR_A14 = [GR_P_POINT_1], 16
-      nop.f          0      
-      add            GR_P_POINT_3 = 0x30, GR_P_POINT_3
-}
-{ .mfi
-      ldfe           exp_ln2_by_128_lo  = [EXP_AD_TB1], 16
-      nop.f          0      
-      add            GR_P_POINT_2 = 0x20, GR_P_POINT_2 
-}
-;;
-
-// Now EXP_AD_TB1 points to the beginning of table 1
-{ .mlx
-      ldfpd          FR_A13, FR_A12 = [GR_P_POINT_1] 
-      movl           GR_1_by_6 = 0x3FC5555555555555
-}
-{ .mfi
-      add            GR_P_POINT_4 = 0x30, GR_P_POINT_2
-      nop.f          0
-      nop.i          0
-}
-;;
-
-{ .mfi
-      ldfpd          FR_A11, FR_A10 = [GR_P_POINT_2]
-      fma.s1         FR_2 = f1, f1, f1
-      mov            exp_TB2_size  = 0x80
-}
-{ .mfi
-      ldfpd          FR_A9, FR_A8 = [GR_P_POINT_3],16
-      nop.f          0
-      add            GR_P_POINT_1 = 0x60 ,GR_P_POINT_1
-}
-;;
-
-// W = X * Inv_log2_by_128
-// By adding 1.10...0*2^63 we shift and get round_int(W) in significand.
-// We actually add 1.10...0*2^56 to X * Inv_log2 to do the same thing.
-{ .mfi
-      ldfpd          FR_A7, FR_A6 = [GR_P_POINT_3] 
-      fma.s1     EXP_W_2TO56_RSH = EXP_NORM_f8,EXP_INV_LN2_2TO63,EXP_RSHF_2TO56
-      add            EXP_AD_TB2 = exp_TB1_size, EXP_AD_TB1
-      
-}
-{ .mfi
-      ldfpd          FR_A5, FR_A4 = [GR_P_POINT_4], 16
-      nop.f          0
-      nop.i          0
-}
-;;
-
-{ .mfi
-      ldfpd          FR_A3, FR_A2 = [GR_P_POINT_4]
-      fmerge.s       FR_X = f8,f8
-      nop.i          0
-}
-{ .mfi 
-      ldfpd          FR_A1, FR_A0 = [GR_P_POINT_1]
-      nop.f          0
-      nop.i          0
-}
-;;
-
-//p14: x < - NEG_ARG_ASYMP = -4.4 -> erfcf(x) ~=~ 2.0
-{ .mfi
-      setf.d         FR_1_by_6  = GR_1_by_6
-(p7)  fcmp.gt.unc.s1 p14,p0 = FR_AbsArg, FR_NEG_ARG_ASYMP          //p7: x < 0
-      nop.i          0
-}
-;;
-
-//p15: x > POS_ARG_ASYMP = 10.06 -> erfcf(x) ~=~ 0.0
-{ .mfi
-      nop.m          0
-(p6)  fcmp.gt.unc.s1 p15,p0 = FR_AbsArg, FR_POS_ARG_ASYMP          //p6: x > 0
-      nop.i          0
-}                       
-;;
-
-{ .mfi
-      nop.m          0
-      fcmp.le.s1     p8,p0 = FR_NormX, FR_UnfBound        // p8: x <= UnfBound
-      nop.i          0
-}
-{ .mfb
-      nop.m          0
-(p14) fnma.s.s0      FR_RESULT = FR_EpsNorm, FR_EpsNorm, FR_2//y = 2 if x <-4.4
-(p14) br.ret.spnt    b0
-}
-;;
-
-// Nfloat = round_int(W) 
-// The signficand of EXP_W_2TO56_RSH contains the rounded integer part of W,
-// as a twos complement number in the lower bits (that is, it may be negative).
-// That twos complement number (called N) is put into exp_GR_N.
-
-// Since EXP_W_2TO56_RSH is scaled by 2^56, it must be multiplied by 2^-56
-// before the shift constant 1.10000 * 2^63 is subtracted to yield EXP_Nfloat.
-// Thus, EXP_Nfloat contains the floating point version of N
-
-{ .mfi
-      nop.m          0
-      fms.s1         EXP_Nfloat = EXP_W_2TO56_RSH, EXP_2TOM56, EXP_RSHF
-      nop.i          0
-} 
-{ .mfb
-(p15) mov            GR_Parameter_TAG = 209
-(p15) fma.s.s0       FR_RESULT = FR_EpsNorm,FR_EpsNorm,f0 //Result.for x>10.06
-(p15) br.cond.spnt   __libm_error_region
-}                   
-;;
-
-// Now we can calculate polynomial P15(x)
-{ .mfi
-      nop.m          0
-      fma.s1         FR_P15_1_1 = FR_AbsArg, FR_AbsArg, f0             // x ^2
-      nop.i          0
-}
-{ .mfi
-      nop.m          0
-      fma.s1         FR_P15_0_1 = FR_A15, FR_AbsArg, FR_A14
-      nop.i          0
-}
-;;
-
-{ .mfi
-      nop.m          0
-      fma.s1         FR_P15_1_2 = FR_A13, FR_AbsArg, FR_A12 
-      nop.i          0 
-}
-;;
-
-{ .mfi
-      getf.sig       exp_GR_N        = EXP_W_2TO56_RSH 
-      fma.s1         FR_P15_2_1 = FR_A9, FR_AbsArg, FR_A8 
-      nop.i          0 
-}
-{ .mfi
-      nop.m          0
-      fma.s1         FR_P15_2_2 = FR_A11, FR_AbsArg, FR_A10 
-      nop.i          0
-}
-;;
-
-{ .mfi
-      nop.m          0
-      fma.s1         FR_P15_3_1 = FR_A5, FR_AbsArg, FR_A4
-      nop.i          0                   
-}
-{ .mfi
-      nop.m          0
-      fma.s1         FR_P15_3_2 = FR_A7, FR_AbsArg, FR_A6
-      nop.i          0
-}
-;;
-
-// exp_GR_index_1 has index_1
-// exp_GR_index_2_16 has index_2 * 16
-// exp_GR_biased_M has M
-// exp_GR_index_1_16 has index_1 * 16
-
-// r2 has true M
-{ .mfi
-      and            exp_GR_index_1 = 0x0f, exp_GR_N
-      fma.s1         FR_P15_4_1 = FR_A1, FR_AbsArg, FR_A0
-      shr            r2 = exp_GR_N,  0x7
-       
-}
-{ .mfi
-      and            exp_GR_index_2_16 = 0x70, exp_GR_N
-      fma.s1         FR_P15_4_2 = FR_A3, FR_AbsArg, FR_A2
-      nop.i          0
-}
-;;
-
-// EXP_AD_T1 has address of T1                           
-// EXP_AD_T2 has address if T2                            
-
-{ .mfi
-      add            EXP_AD_T2 = EXP_AD_TB2, exp_GR_index_2_16
-      nop.f          0                      
-      shladd         EXP_AD_T1 = exp_GR_index_1, 4, EXP_AD_TB1
-}
-{ .mfi
-      addl           exp_GR_biased_M = 0xffff, r2
-      fnma.s1        exp_r   = EXP_Nfloat, exp_ln2_by_128_hi, EXP_NORM_f8
-      nop.i          0
-}
-;;
-
-// Create Scale = 2^M
-// r = x - Nfloat * ln2_by_128_hi 
- 
-{ .mfi
-      setf.exp       EXP_2M = exp_GR_biased_M
-      fma.s1         FR_P15_7_1 = FR_P15_0_1, FR_P15_1_1, FR_P15_1_2
-      nop.i          0
-}
-{ .mfi
-      ldfe           exp_T2  = [EXP_AD_T2]      
-      nop.f          0
-      nop.i          0
-}
-;;
-
-// Load T1 and T2
-
-{ .mfi
-      ldfe           exp_T1  = [EXP_AD_T1]
-      fma.s1         FR_P15_7_2 = FR_P15_1_1, FR_P15_1_1, f0            // x^4
-      nop.i          0
-}
-{ .mfi
-      nop.m          0
-      fma.s1         FR_P15_8_1 = FR_P15_1_1, FR_P15_2_2, FR_P15_2_1 
-      nop.i          0
-}
-;;
-
-{ .mfi
-      nop.m          0
-      fma.s1         FR_P15_9_1 = FR_P15_1_1, FR_P15_4_2, FR_P15_4_1 
-      nop.i          0
-}
-{ .mfi
-      nop.m          0
-      fma.s1         FR_P15_9_2 = FR_P15_1_1, FR_P15_3_2, FR_P15_3_1 
-      nop.i          0
-}
-;;
-
-{ .mfi
-      nop.m          0
-      fma.s1         exp_P = FR_1_by_6, exp_r, FR_05 
-      nop.i          0
-}
-{ .mfi
-      nop.m          0
-      fma.s1         exp_rsq = exp_r, exp_r, f0 
-      nop.i          0
-}
-;;
-
-{ .mfi
-      nop.m          0
-      fma.s1         FR_P15_13_1 = FR_P15_7_2, FR_P15_7_1, FR_P15_8_1 
-      nop.i          0
-}
-;;
-
-{ .mfi
-      nop.m          0
-      fma.s1         FR_P15_14_1 = FR_P15_7_2, FR_P15_9_2, FR_P15_9_1 
-      nop.i          0
-}
-{ .mfi
-      nop.m          0
-      fma.s1         FR_P15_14_2 = FR_P15_7_2, FR_P15_7_2, f0           // x^8
-      nop.i          0
-}
-;;
-
-{ .mfi
-      nop.m          0
-      fma.s1         exp_P     = exp_P, exp_rsq, exp_r
-      nop.i          0
-}
-{ .mfi
-      nop.m          0
-      fma.s1         exp_S1  = EXP_2M, exp_T2, f0   
-      nop.i          0
-}
-;;
-
-{ .mfi
-      nop.m          0
-      fma.s1         FR_Pol = FR_P15_14_2, FR_P15_13_1, FR_P15_14_1  // P15(x)
-      nop.i          0
-}
-;;
-
-{ .mfi
-      nop.m          0
-      fma.s1         exp_S   = exp_S1, exp_T1, f0
-      nop.i          0
-}
-;;
-
-{ .mfi
-      nop.m          0
-      fma.s1         FR_Exp = exp_S, exp_P, exp_S                 // exp(-x^2)
-      nop.i          0          
-}
-;;   
-
-{ .mfi
-      nop.m          0
-      fma.s.s0       FR_Tmpf = f8, f1, f0                          //  Flag  d
-      nop.i          0 
-}
-;;
-
-//p6: result for     0 < x < = POS_ARG_ASYMP 
-//p7: result for   - NEG_ARG_ASYMP  <= x < 0
-//p8: exit   for   - NEG_ARG_ASYMP <= x <= UnfBound, x!=0
-.pred.rel "mutex",p6,p7
-{ .mfi
-      nop.m          0
-(p6)  fma.s.s0       f8 = FR_Exp, FR_Pol, f0 
-      nop.i          0         
-}
-{ .mfb
-      mov            GR_Parameter_TAG = 209
-(p7)  fnma.s.s0      f8 = FR_Exp, FR_Pol, FR_2
-(p8)  br.ret.sptk    b0 
-}
-;;
-
-//p10: branch for  UnfBound < x < = POS_ARG_ASYMP
-{ .mfb
-      nop.m          0
-      nop.f          0
-(p10) br.cond.spnt   __libm_error_region  
-}
-;;
-
-//Only via (p9)  br.cond.spnt   SPECIAL  for x = 0,+inf,-inf,nan,unnorm
-SPECIAL:
-
-{ .mfi
-      nop.m          0
-      fclass.m.unc   p10,p0 = f8,0x07                            // p10: x = 0
-      nop.i          0
-}
-;;
-
-{ .mfi
-      nop.m          0
-      fclass.m.unc   p11,p0 = f8,0x21                         // p11: x = +inf
-      nop.i          0
-}
-;;
-
-{ .mfi
-      nop.m          0
-      fclass.m.unc   p12,p0 = f8,0x22                          // p12 x = -inf
-      nop.i          0
-}
-{ .mfb
-      nop.m          0
-(p10) fma.s.s0       f8 = f1, f1, f0
-(p10) br.ret.sptk    b0                                // Quick exit for x = 0
-}
-;;
-
-{ .mfi
-      nop.m          0
-      fclass.m.unc   p13,p0 = f8,0xc3                          // p13: x = nan
-      nop.i          0
-}
-{ .mfb
-      nop.m          0
-(p11) fma.s.s0       f8 = f0, f1, f0
-(p11) br.ret.spnt    b0                             // Quick exit for x = +inf
-}
-;;
-{ .mfi
-      nop.m          0
-      fclass.m.unc   p14,p0 = f8,0x0b                 // P14: x = unnormalized
-      nop.i          0
-}
-{ .mfb
-      nop.m          0
-(p12) fma.s.s0       f8 = f1, f1, f1
-(p12) br.ret.spnt    b0                             // Quick exit for x = -inf
-}
-;;
-
-{ .mfb
-      nop.m          0
-(p13) fma.s.s0       f8 = f8, f1, f0
-(p13) br.ret.sptk    b0                              // Quick exit for x = nan
-}
-;;
-
-{ .mfb
-      nop.m          0
-(p14) fnma.s.s0      f8 = f8, f1, f1
-(p14) br.ret.sptk    b0                     // Quick exit for x = unnormalized
-}
-;;
-
-GLOBAL_LIBM_END(erfcf)
-
-
-// Call via (p10) br.cond.spnt   __libm_error_region
-//          for  UnfBound < x < = POS_ARG_ASYMP 
-// and
-// 
-// call via (p15) br.cond.spnt   __libm_error_region
-//          for  x > POS_ARG_ASYMP
-
-LOCAL_LIBM_ENTRY(__libm_error_region)
-.prologue
-{ .mfi
-        add   GR_Parameter_Y=-32,sp                       // Parameter 2 value
-        nop.f 0
-.save   ar.pfs,GR_SAVE_PFS
-        mov  GR_SAVE_PFS=ar.pfs                                 // Save ar.pfs
-}
-{ .mfi
-.fframe 64 
-        add sp=-64,sp                                      // Create new stack
-        nop.f 0
-        mov GR_SAVE_GP=gp                                           // Save gp
-};;
-{ .mmi
-        stfs [GR_Parameter_Y] = FR_Y,16          // STORE Parameter 2 on stack
-        add GR_Parameter_X = 16,sp                      // Parameter 1 address
-.save   b0, GR_SAVE_B0                      
-        mov GR_SAVE_B0=b0                                           // Save b0
-};;
-.body
-{ .mib
-        stfs [GR_Parameter_X] = FR_X             // STORE Parameter 1 on stack
-        add   GR_Parameter_RESULT = 0,GR_Parameter_Y    // Parameter 3 address
-        nop.b 0                                      
-}
-{ .mib
-        stfs [GR_Parameter_Y] = FR_RESULT        // STORE Parameter 3 on stack
-        add   GR_Parameter_Y = -16,GR_Parameter_Y  
-        br.call.sptk b0=__libm_error_support#  // Call error handling function
-};;
-{ .mmi
-        nop.m 0
-        nop.m 0
-        add   GR_Parameter_RESULT = 48,sp
-};;
-{ .mmi
-        ldfs  f8 = [GR_Parameter_RESULT]        // Get return result off stack
-.restore sp
-        add   sp = 64,sp                              // Restore stack pointer
-        mov   b0 = GR_SAVE_B0                        // Restore return address
-};;
-{ .mib
-        mov   gp = GR_SAVE_GP                                    // Restore gp
-        mov   ar.pfs = GR_SAVE_PFS                           // Restore ar.pfs
-        br.ret.sptk     b0                                           // Return
-};; 
-
-LOCAL_LIBM_END(__libm_error_region)
-.type   __libm_error_support#,@function
-.global __libm_error_support#
-
-
-