dnl SPARC v9 mpn_mul_4 and mpn_addmul_4 for T3/T4/T5. dnl Contributed to the GNU project by Torbjörn Granlund. dnl Copyright 2013 Free Software Foundation, Inc. dnl This file is part of the GNU MP Library. dnl dnl The GNU MP Library is free software; you can redistribute it and/or modify dnl it under the terms of either: dnl dnl * the GNU Lesser General Public License as published by the Free dnl Software Foundation; either version 3 of the License, or (at your dnl option) any later version. dnl dnl or dnl dnl * the GNU General Public License as published by the Free Software dnl Foundation; either version 2 of the License, or (at your option) any dnl later version. dnl dnl or both in parallel, as here. dnl dnl The GNU MP Library is distributed in the hope that it will be useful, but dnl WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY dnl or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License dnl for more details. dnl dnl You should have received copies of the GNU General Public License and the dnl GNU Lesser General Public License along with the GNU MP Library. If not, dnl see https://www.gnu.org/licenses/. include(`../config.m4') C cycles/limb cycles/limb C mul_4 addmul_4 C UltraSPARC T3: 21.5 22.0 C UltraSPARC T4: 2.625 2.75 C The code is well-scheduled and relies on OoO very little. There is hope that C this will run at around 2.5 and 2.75 c/l respectively, on T4. define(`rp', `%i0') define(`up', `%i1') define(`n', `%i2') define(`vp', `%i3') define(`v0', `%g1') define(`v1', `%o7') define(`v2', `%g2') define(`v3', `%i3') define(`w0', `%o0') define(`w1', `%o1') define(`w2', `%o2') define(`w3', `%o3') define(`w4', `%o4') define(`r0', `%o5') define(`u0', `%i4') define(`u1', `%i5') define(`rp0', `rp') define(`rp1', `%g3') define(`rp2', `%g4') define(`up0', `up') define(`up1', `%g5') ifdef(`OPERATION_mul_4',` define(`AM4', `') define(`ADDX', `addcc`'$1') define(`func', `mpn_mul_4') ') ifdef(`OPERATION_addmul_4',` define(`AM4', `$1') define(`ADDX', `addxccc($1,$2,$3)') define(`func', `mpn_addmul_4') ') MULFUNC_PROLOGUE(mpn_mul_4 mpn_addmul_4) ASM_START() REGISTER(%g2,#scratch) REGISTER(%g3,#scratch) PROLOGUE(func) save %sp, -176, %sp ldx [up + 0], u1 C load up[0] early andcc n, 1, %g0 C is n odd? ldx [vp + 0], v0 sllx n, 3, n ldx [vp + 8], v1 add n, -28, n ldx [vp + 16], v2 add rp, -16, rp ldx [vp + 24], v3 add up, n, up0 add rp, n, rp0 add up0, 8, up1 add rp0, 8, rp1 add rp0, 16, rp2 mulx u1, v0, %l0 mov 0, w0 mulx u1, v1, %l1 mov 0, w1 mulx u1, v2, %l2 mov 0, w2 mulx u1, v3, %l3 mov 0, w3 be L(evn) neg n, n L(odd): mov u1, u0 ldx [up1 + n], u1 AM4(` ldx [rp2 + n], r0') umulxhi(u0, v0, %l4) umulxhi(u0, v1, %l5) umulxhi(u0, v2, %l6) umulxhi(u0, v3, %l7) b L(mid) add n, 8, n L(evn): ldx [up1 + n], u0 AM4(` ldx [rp2 + n], r0') umulxhi(u1, v0, %l4) umulxhi(u1, v1, %l5) umulxhi(u1, v2, %l6) umulxhi(u1, v3, %l7) add n, 16, n ALIGN(16) L(top): addcc %l0, w0, w0 mulx u0, v0, %l0 C w 0 addxccc(%l1, w1, w1) mulx u0, v1, %l1 C w 1 addxccc(%l2, w2, w2) mulx u0, v2, %l2 C w 2 addxccc(%l3, w3, w3) mulx u0, v3, %l3 C w 3 ldx [up0 + n], u1 addxc( %g0, %g0, w4) AM4(` addcc r0, w0, w0') stx w0, [rp0 + n] ADDX(` %l4, w1, w0') umulxhi(u0, v0, %l4) C w 1 AM4(` ldx [rp1 + n], r0') addxccc(%l5, w2, w1) umulxhi(u0, v1, %l5) C w 2 addxccc(%l6, w3, w2) umulxhi(u0, v2, %l6) C w 3 addxc( %l7, w4, w3) umulxhi(u0, v3, %l7) C w 4 L(mid): addcc %l0, w0, w0 mulx u1, v0, %l0 C w 1 addxccc(%l1, w1, w1) mulx u1, v1, %l1 C w 2 addxccc(%l2, w2, w2) mulx u1, v2, %l2 C w 3 addxccc(%l3, w3, w3) mulx u1, v3, %l3 C w 4 ldx [up1 + n], u0 addxc( %g0, %g0, w4) AM4(` addcc r0, w0, w0') stx w0, [rp1 + n] ADDX(` %l4, w1, w0') umulxhi(u1, v0, %l4) C w 2 AM4(` ldx [rp2 + n], r0') addxccc(%l5, w2, w1) umulxhi(u1, v1, %l5) C w 3 addxccc(%l6, w3, w2) umulxhi(u1, v2, %l6) C w 4 addxc( %l7, w4, w3) umulxhi(u1, v3, %l7) C w 5 brlz n, L(top) add n, 16, n L(end): addcc %l0, w0, w0 mulx u0, v0, %l0 addxccc(%l1, w1, w1) mulx u0, v1, %l1 addxccc(%l2, w2, w2) mulx u0, v2, %l2 addxccc(%l3, w3, w3) mulx u0, v3, %l3 addxc( %g0, %g0, w4) AM4(` addcc r0, w0, w0') stx w0, [rp0 + n] ADDX(` %l4, w1, w0') umulxhi(u0, v0, %l4) AM4(` ldx [rp1 + n], r0') addxccc(%l5, w2, w1) umulxhi(u0, v1, %l5) addxccc(%l6, w3, w2) umulxhi(u0, v2, %l6) addxc( %l7, w4, w3) umulxhi(u0, v3, %l7) addcc %l0, w0, w0 addxccc(%l1, w1, w1) addxccc(%l2, w2, w2) addxccc(%l3, w3, w3) addxc( %g0, %g0, w4) AM4(` addcc r0, w0, w0') stx w0, [rp1 + n] ADDX(` %l4, w1, w0') addxccc(%l5, w2, w1) addxccc(%l6, w3, w2) stx w0, [rp2 + n] add n, 16, n stx w1, [rp1 + n] stx w2, [rp2 + n] addxc( %l7, w4, %i0) ret restore EPILOGUE()