/*********************************************************************/ /* Copyright 2009, 2010 The University of Texas at Austin. */ /* All rights reserved. */ /* */ /* Redistribution and use in source and binary forms, with or */ /* without modification, are permitted provided that the following */ /* conditions are met: */ /* */ /* 1. Redistributions of source code must retain the above */ /* copyright notice, this list of conditions and the following */ /* disclaimer. */ /* */ /* 2. 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. */ /* */ /* THIS SOFTWARE IS PROVIDED BY THE UNIVERSITY OF TEXAS AT */ /* AUSTIN ``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 THE UNIVERSITY OF TEXAS AT */ /* AUSTIN OR 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. */ /* */ /* The views and conclusions contained in the software and */ /* documentation are those of the authors and should not be */ /* interpreted as representing official policies, either expressed */ /* or implied, of The University of Texas at Austin. */ /*********************************************************************/ #define ASSEMBLER #include "common.h" #define N r32 #define X1 r33 #define INCX r34 #define Y1 r35 #define INCY r36 #define PREA r2 #define PREB r3 #define I r14 #define J r15 #define X2 r16 #define Y2 r17 #define INCX3 r18 #define INCY3 r19 #define INCX5 r20 #define INCY5 r21 #define INCX16 r22 #define INCY16 r23 #define XX r24 #define YY r25 #define XA r26 #define YA r27 #define PR r30 #define ARLC r31 #ifdef DOUBLE #define PREFETCH_SIZE (4 * 32) #else #define PREFETCH_SIZE (4 * 64) #endif PROLOGUE .prologue PROFCODE { .mmi shladd INCX = INCX, BASE_SHIFT, r0 shladd INCY = INCY, BASE_SHIFT, r0 .save ar.lc, ARLC mov ARLC = ar.lc } { .mib cmp.lt p0, p6 = r0, N tbit.z p0, p7 = X1, BASE_SHIFT (p6) br.ret.sptk.many b0 } ;; .body { .mmi sub XA = Y1, X1 (p7) LDFD f32 = [X1], INCX mov PR = pr } { .mmi mov YY = Y1 (p7) adds N = -1, N (p7) add Y1 = Y1, INCY } ;; { .mmi shladd INCX5 = INCX, 2, INCX shladd INCY5 = INCY, 2, INCY mov pr.rot = 0 } { .mmi mov XX = X1 nop.m 0 shr.u XA = XA, BASE_SHIFT } ;; { .mmi and J = 15, N cmp.eq p16, p0 = r0, r0 shr I = N, 4 } { .mmb cmp.ne p6, p0 = SIZE, INCX #ifdef DOUBLE adds XA = 2, XA #else nop.m 0 #endif (p6) br.cond.dpnt .L100 } ;; /* INCX == 1 */ { .mmi shladd INCX16 = INCX, 4, r0 shladd INCY16 = INCY, 4, r0 tbit.z p0, p12 = N, 3 } { .mmi #ifdef DOUBLE and XA = 31, XA #else and XA = 63, XA #endif adds I = -1, I tbit.z p0, p13 = N, 2 } ;; { .mmi shladd X2 = INCX, 2, X1 shladd Y2 = INCY, 2, Y1 mov ar.lc = I } { .mib #ifdef DOUBLE cmp.gt p8, p0 = 15, XA #else cmp.gt p8, p0 = 30, XA #endif cmp.eq p9, p0 = r0, J (p8)br.cond.dpnt .L30 } ;; { .mmi (p7) STFD [YY] = f32 cmp.gt p8 ,p0 = r0, I mov ar.ec = 5 } { .mmb adds PREA = PREFETCH_SIZE * SIZE + 32, X1 #ifdef DOUBLE adds PREB = PREFETCH_SIZE * SIZE + 32, Y1 #else adds PREB = PREFETCH_SIZE * SIZE - 40, Y1 #endif (p8) br.cond.dpnt .L25 } ;; .align 32 .L22: { .mmi (p20) STFD [Y1] = f36 (p20) STFD [Y2] = f56 (p20) add Y1 = INCY, Y1 } { .mmi (p16) lfetch.nt1 [PREA], INCX16 (p16) LDFPD f32, f37 = [X1], 2 * SIZE (p20) add Y2 = INCY, Y2 } ;; { .mmi (p20) STFD [Y1] = f41 (p20) STFD [Y2] = f61 (p20) add Y1 = INCY, Y1 } { .mmi (p16) lfetch.excl.nt1 [PREB], INCY16 (p16) LDFPD f42, f47 = [X1], 2 * SIZE (p20) add Y2 = INCY, Y2 } ;; { .mmi (p20) STFD [Y1] = f46 (p20) STFD [Y2] = f66 (p20) add Y1 = INCY, Y1 } { .mmi (p16) LDFPD f52, f57 = [X1], 2 * SIZE nop.m 0 (p20) add Y2 = INCY, Y2 } ;; { .mmi (p20) STFD [Y1] = f51 (p20) STFD [Y2] = f71 (p20) add Y1 = INCY5, Y1 } { .mmi (p16) LDFPD f62, f67 = [X1], 2 * SIZE nop.m 0 (p20) add Y2 = INCY5, Y2 } ;; { .mmi (p20) STFD [Y1] = f76 (p20) STFD [Y2] = f96 (p16) adds XX = 8 * SIZE, X1 } { .mmi (p16) LDFPD f72, f77 = [X1], 2 * SIZE (p20) add Y1 = INCY, Y1 (p20) add Y2 = INCY, Y2 } ;; { .mmi (p20) STFD [Y1] = f81 (p20) STFD [Y2] = f101 (p20) add Y1 = INCY, Y1 } { .mmi (p16) LDFPD f82, f87 = [X1], 2 * SIZE nop.m 0 (p20) add Y2 = INCY, Y2 } ;; { .mmi (p20) STFD [Y1] = f86 (p20) STFD [Y2] = f106 (p16) shladd X2 = INCX, 2, XX } { .mmi (p16) LDFPD f92, f97 = [X1], 2 * SIZE (p20) add Y1 = INCY, Y1 (p20) add Y2 = INCY, Y2 } ;; { .mmi (p20) STFD [Y1] = f91 (p20) STFD [Y2] = f111 (p20) add Y1 = INCY5, Y1 } { .mmb (p16) LDFPD f102, f107 = [X1], 2 * SIZE (p20) add Y2 = INCY5, Y2 br.ctop.sptk.few .L22 } ;; .align 32 .L25: { .mmi (p12) LDFPD f48, f49 = [X1], 2 * SIZE (p12) LDFPD f52, f53 = [X2], 2 * SIZE mov ar.lc = ARLC } { .mmi (p12) adds XX = 8 * SIZE, XX nop.m 0 tbit.z p0, p14 = N, 1 } ;; { .mmi (p12) LDFPD f50, f51 = [X1] (p12) LDFPD f54, f55 = [X2] mov pr = PR, -65474 } { .mmb (p12) adds X1 = 6 * SIZE, X1 (p13) adds XX = 4 * SIZE, XX (p9) br.ret.sptk.many b0 } ;; { .mmi (p13) LDFPD f56, f57 = [X1], 2 * SIZE (p14) LDFPD f60, f61 = [XX], 2 * SIZE tbit.z p0, p15 = N, 0 } ;; { .mmi (p13) LDFPD f58, f59 = [X1], 2 * SIZE (p15) LDFD f62 = [XX] nop.i 0 } ;; { .mmi (p12) STFD [Y1] = f48 (p12) STFD [Y2] = f52 mov YY = Y1 } { .mmi (p12) add Y1 = INCY, Y1 (p12) add Y2 = INCY, Y2 nop.i 0 } ;; { .mmi (p12) STFD [Y1] = f49 (p12) STFD [Y2] = f53 (p12) add Y1 = INCY, Y1 } { .mmi (p12) add Y2 = INCY, Y2 (p12) shladd YY = INCY, 3, YY nop.i 0 } ;; { .mmi (p12) STFD [Y1] = f50 (p12) STFD [Y2] = f54 (p12) add Y1 = INCY, Y1 } { .mmi (p12) add Y2 = INCY, Y2 (p13) shladd YY = INCY, 2, YY nop.i 0 } ;; { .mmi (p12) STFD [Y1] = f51 (p12) STFD [Y2] = f55 (p12) add Y1 = INCY5, Y1 } { .mmi (p12) add Y2 = INCY5, Y2 nop.m 0 nop.i 0 } ;; { .mmi (p13) STFD [Y1] = f56 (p14) STFD [YY] = f60 (p13) add Y1 = INCY, Y1 } { .mmi (p14) add YY = INCY, YY nop.m 0 nop.i 0 } ;; { .mmi (p13) STFD [Y1] = f57 (p14) STFD [YY] = f61 (p13) add Y1 = INCY, Y1 } { .mmi (p14) add YY = INCY, YY nop.m 0 nop.i 0 } ;; { .mmi (p13) STFD [Y1] = f58 (p15) STFD [YY] = f62 (p13) add Y1 = INCY, Y1 } ;; { .mmb (p13) STFD [Y1] = f59 nop.m 0 br.ret.sptk.many b0 } .align 32 ;; .L30: { .mmi (p7) STFD [YY] = f32 cmp.gt p8 ,p0 = r0, I mov ar.ec = 4 } { .mmb adds PREA = PREFETCH_SIZE * SIZE + 24, X1 #ifdef DOUBLE adds PREB = PREFETCH_SIZE * SIZE + 64, Y1 #else adds PREB = PREFETCH_SIZE * SIZE + 72, Y1 #endif (p8) br.cond.dpnt .L35 } ;; .align 32 .L32: { .mmi (p19) STFD [Y1] = f35 (p19) STFD [Y2] = f55 (p19) add Y1 = INCY, Y1 } { .mmi (p16) lfetch.nt1 [PREA], INCX16 (p16) LDFPD f32, f37 = [X1], 2 * SIZE (p19) add Y2 = INCY, Y2 } ;; { .mmi (p19) STFD [Y1] = f40 (p19) STFD [Y2] = f60 (p19) add Y1 = INCY, Y1 } { .mmi (p16) lfetch.excl.nt1 [PREB], INCY16 (p16) LDFPD f42, f47 = [X1], 2 * SIZE (p19) add Y2 = INCY, Y2 } ;; { .mmi (p19) STFD [Y1] = f45 (p19) STFD [Y2] = f65 (p19) add Y1 = INCY, Y1 } { .mmi (p16) LDFPD f52, f57 = [X1], 2 * SIZE nop.m 0 (p19) add Y2 = INCY, Y2 } ;; { .mmi (p19) STFD [Y1] = f50 (p19) STFD [Y2] = f70 (p19) add Y1 = INCY5, Y1 } { .mmi (p16) LDFPD f62, f67 = [X1], 2 * SIZE nop.m 0 (p19) add Y2 = INCY5, Y2 } ;; { .mmi (p19) STFD [Y1] = f75 (p19) STFD [Y2] = f95 (p16) adds XX = 8 * SIZE, X1 } { .mmi (p16) LDFPD f72, f77 = [X1], 2 * SIZE (p19) add Y1 = INCY, Y1 (p19) add Y2 = INCY, Y2 } ;; { .mmi (p19) STFD [Y1] = f80 (p19) STFD [Y2] = f100 (p19) add Y1 = INCY, Y1 } { .mmi (p16) LDFPD f82, f87 = [X1], 2 * SIZE nop.m 0 (p19) add Y2 = INCY, Y2 } ;; { .mmi (p19) STFD [Y1] = f85 (p19) STFD [Y2] = f105 (p16) shladd X2 = INCX, 2, XX } { .mmi (p16) LDFPD f92, f97 = [X1], 2 * SIZE (p19) add Y1 = INCY, Y1 (p19) add Y2 = INCY, Y2 } ;; { .mmi (p19) STFD [Y1] = f90 (p19) STFD [Y2] = f110 (p19) add Y1 = INCY5, Y1 } { .mmb (p16) LDFPD f102, f107 = [X1], 2 * SIZE (p19) add Y2 = INCY5, Y2 br.ctop.sptk.few .L32 } ;; .align 32 .L35: { .mmi (p12) LDFPD f48, f49 = [X1], 2 * SIZE (p12) LDFPD f52, f53 = [X2], 2 * SIZE mov ar.lc = ARLC } { .mmi (p12) adds XX = 8 * SIZE, XX nop.m 0 tbit.z p0, p14 = N, 1 } ;; { .mmi (p12) LDFPD f50, f51 = [X1] (p12) LDFPD f54, f55 = [X2] mov pr = PR, -65474 } { .mmi (p12) adds X1 = 6 * SIZE, X1 (p12) adds X2 = 6 * SIZE, X2 (p13) adds XX = 4 * SIZE, XX } ;; { .mmi (p13) LDFPD f56, f57 = [X1], 2 * SIZE (p14) LDFPD f60, f61 = [XX], 2 * SIZE tbit.z p0, p15 = N, 0 } ;; { .mmb (p13) LDFPD f58, f59 = [X1], 2 * SIZE (p15) LDFD f62 = [XX] (p9) br.ret.sptk.many b0 } ;; { .mmi (p12) STFD [Y1] = f48 (p12) STFD [Y2] = f52 mov YY = Y1 } { .mmi (p12) add Y1 = INCY, Y1 (p12) add Y2 = INCY, Y2 nop.i 0 } ;; { .mmi (p12) STFD [Y1] = f49 (p12) STFD [Y2] = f53 (p12) add Y1 = INCY, Y1 } { .mmi (p12) add Y2 = INCY, Y2 (p12) shladd YY = INCY, 3, YY nop.i 0 } ;; { .mmi (p12) STFD [Y1] = f50 (p12) STFD [Y2] = f54 (p12) add Y1 = INCY, Y1 } { .mmi (p12) add Y2 = INCY, Y2 (p13) shladd YY = INCY, 2, YY nop.i 0 } ;; { .mmi (p12) STFD [Y1] = f51 (p12) STFD [Y2] = f55 nop.i 0 } { .mmi (p12) add Y1 = INCY5, Y1 (p12) add Y2 = INCY5, Y2 nop.i 0 } ;; { .mmi (p13) STFD [Y1] = f56 (p14) STFD [YY] = f60 nop.i 0 } { .mmi (p13) add Y1 = INCY, Y1 (p14) add YY = INCY, YY nop.i 0 } ;; { .mmi (p13) STFD [Y1] = f57 (p14) STFD [YY] = f61 nop.i 0 } { .mmi (p13) add Y1 = INCY, Y1 (p14) add YY = INCY, YY nop.i 0 } ;; { .mmi (p13) STFD [Y1] = f58 (p15) STFD [YY] = f62 (p13) add Y1 = INCY, Y1 } ;; { .mib (p13) STFD [Y1] = f59 nop.i 0 br.ret.sptk.many b0 } .align 32 ;; /* INCX != 1 */ .L100: { .mmi shladd INCX16 = INCX, 4, r0 shladd INCY16 = INCY, 4, r0 tbit.z p0, p12 = N, 3 } { .mmi nop.m 0 nop.m 0 nop.i 0 } ;; { .mmi adds PREA = PREFETCH_SIZE * SIZE, X1 adds PREB = PREFETCH_SIZE * SIZE, Y1 mov ar.ec = 6 } { .mmi cmp.eq p8 ,p0 = r0, I cmp.eq p9, p0 = r0, J adds I = -1, I } ;; { .mmi (p7) STFD [YY] = f32 shladd X2 = INCX, 2, X1 mov ar.lc = I } { .mib shladd Y2 = INCY, 2, Y1 cmp.eq p16, p0 = r0, r0 (p8) br.cond.dpnt .L120 } ;; .align 32 .L110: { .mmi (p21) STFD [Y1] = f37 (p21) STFD [Y2] = f61 (p21) add Y1 = INCY, Y1 } { .mmi (p16) lfetch.nt1 [PREA], INCX16 (p16) lfetch.excl.nt1 [PREB], INCY16 (p21) add Y2 = INCY, Y2 } ;; { .mmi (p21) STFD [Y1] = f43 (p21) STFD [Y2] = f67 (p21) add Y1 = INCY, Y1 } { .mmi (p16) LDFD f56 = [X2], INCX (p16) LDFD f32 = [X1], INCX (p21) add Y2 = INCY, Y2 } ;; { .mmi (p21) STFD [Y1] = f49 (p21) STFD [Y2] = f73 (p21) add Y1 = INCY, Y1 } { .mmi (p16) LDFD f38 = [X1], INCX (p16) LDFD f62 = [X2], INCX (p21) add Y2 = INCY, Y2 } ;; { .mmi (p21) STFD [Y1] = f55 (p21) STFD [Y2] = f79 (p21) add Y1 = INCY5, Y1 } { .mmi (p16) LDFD f44 = [X1], INCX (p16) LDFD f68 = [X2], INCX (p21) add Y2 = INCY5, Y2 } ;; { .mmi (p21) STFD [Y1] = f85 (p21) STFD [Y2] = f109 (p21) add Y1 = INCY, Y1 } { .mmi (p16) LDFD f50 = [X1], INCX5 (p16) LDFD f74 = [X2], INCX5 (p21) add Y2 = INCY, Y2 } ;; { .mmi (p21) STFD [Y1] = f91 (p21) STFD [Y2] = f115 (p21) add Y1 = INCY, Y1 } { .mmi (p16) LDFD f80 = [X1], INCX (p16) LDFD f104 = [X2], INCX (p21) add Y2 = INCY, Y2 } ;; { .mmi (p21) STFD [Y1] = f97 (p21) STFD [Y2] = f121 (p21) add Y1 = INCY, Y1 } { .mmi (p16) LDFD f86 = [X1], INCX (p16) LDFD f110 = [X2], INCX (p21) add Y2 = INCY, Y2 } ;; { .mmi (p21) STFD [Y1] = f103 (p21) STFD [Y2] = f127 (p21) add Y1 = INCY5, Y1 } { .mmi (p16) LDFD f92 = [X1], INCX (p16) LDFD f116 = [X2], INCX (p21) add Y2 = INCY5, Y2 } ;; { .mmi nop.m 0 (p16) add XX = INCX5, X1 nop.i 0 } { .mmb (p16) LDFD f98 = [X1], INCX5 (p16) LDFD f122 = [X2], INCX5 br.ctop.sptk.few .L110 } ;; .align 32 .L120: { .mmi (p12) LDFD f48 = [X1], INCX (p12) LDFD f52 = [X2], INCX mov ar.lc = ARLC } ;; { .mmi (p12) LDFD f49 = [X1], INCX (p12) LDFD f53 = [X2], INCX mov pr = PR, -65474 } ;; { .mmi (p12) LDFD f50 = [X1], INCX (p12) LDFD f54 = [X2], INCX tbit.z p0, p13 = N, 2 } { .mmb nop.m 0 nop.m 0 (p9) br.ret.sptk.many b0 } ;; { .mmi (p12) LDFD f51 = [X1], INCX5 (p12) LDFD f55 = [X2], INCX5 (p12) shladd XX = INCX, 3, XX } ;; { .mmi (p13) LDFD f56 = [X1], INCX (p13) shladd XX = INCX, 2, XX tbit.z p0, p14 = N, 1 } ;; { .mmi (p13) LDFD f57 = [X1], INCX (p14) LDFD f60 = [XX], INCX } ;; { .mmi (p13) LDFD f58 = [X1], INCX (p14) LDFD f61 = [XX], INCX tbit.z p0, p15 = N, 0 } ;; { .mmi (p13) LDFD f59 = [X1], INCX (p15) LDFD f62 = [XX] mov YY = Y1 } ;; { .mmi (p12) STFD [Y1] = f48 (p12) STFD [Y2] = f52 nop.i 0 } { .mmi (p12) add Y1 = INCY, Y1 (p12) add Y2 = INCY, Y2 nop.i 0 } ;; { .mmi (p12) STFD [Y1] = f49 (p12) STFD [Y2] = f53 nop.i 0 } { .mmi (p12) add Y1 = INCY, Y1 (p12) add Y2 = INCY, Y2 nop.i 0 } ;; { .mmi (p12) STFD [Y1] = f50 (p12) STFD [Y2] = f54 nop.i 0 } { .mmi (p12) add Y1 = INCY, Y1 (p12) add Y2 = INCY, Y2 nop.i 0 } ;; { .mmi (p12) STFD [Y1] = f51 (p12) STFD [Y2] = f55 (p12) add Y1 = INCY5, Y1 } { .mmi (p12) add Y2 = INCY5, Y2 (p12) shladd YY = INCY, 3, YY nop.i 0 } ;; { .mmi (p13) STFD [Y1] = f56 (p13) add Y1 = INCY, Y1 (p13) shladd YY =INCY, 2, YY } ;; { .mmi (p13) STFD [Y1] = f57 (p14) STFD [YY] = f60 nop.i 0 } { .mmi (p13) add Y1 = INCY, Y1 (p14) add YY = INCY, YY nop.i 0 } ;; { .mmi (p13) STFD [Y1] = f58 (p14) STFD [YY] = f61 nop.i 0 } { .mmi (p13) add Y1 = INCY, Y1 (p14) add YY = INCY, YY nop.i 0 } ;; { .mmb (p13) STFD [Y1] = f59 (p15) STFD [YY] = f62 br.ret.sptk.many b0 } ;; EPILOGUE