#if !(defined (__mips_isa_rev) && (__mips_isa_rev >= 6)) .set mips2 #endif #include "mips_arch.h" #if defined(_MIPS_ARCH_MIPS64R6) # define ddivu(rs,rt) # define mfqt(rd,rs,rt) ddivu rd,rs,rt # define mfrm(rd,rs,rt) dmodu rd,rs,rt #elif defined(_MIPS_ARCH_MIPS32R6) # define divu(rs,rt) # define mfqt(rd,rs,rt) divu rd,rs,rt # define mfrm(rd,rs,rt) modu rd,rs,rt #else # define divu(rs,rt) divu $0,rs,rt # define mfqt(rd,rs,rt) mflo rd # define mfrm(rd,rs,rt) mfhi rd #endif .rdata .asciiz "mips3.s, Version 1.2" .asciiz "MIPS II/III/IV ISA artwork by Andy Polyakov " .text .set noat .align 5 .globl bn_mul_add_words .ent bn_mul_add_words bn_mul_add_words: .set noreorder bgtz $6,bn_mul_add_words_internal move $2,$0 jr $31 move $4,$2 .end bn_mul_add_words .align 5 .ent bn_mul_add_words_internal bn_mul_add_words_internal: .set reorder li $3,-4 and $8,$6,$3 beqz $8,.L_bn_mul_add_words_tail .L_bn_mul_add_words_loop: lw $12,0($5) multu ($12,$7) lw $13,0($4) lw $14,4($5) lw $15,4($4) lw $8,2*4($5) lw $9,2*4($4) addu $13,$2 sltu $2,$13,$2 # All manuals say it "compares 32-bit # values", but it seems to work fine # even on 64-bit registers. mflo ($1,$12,$7) mfhi ($12,$12,$7) addu $13,$1 addu $2,$12 multu ($14,$7) sltu $1,$13,$1 sw $13,0($4) addu $2,$1 lw $10,3*4($5) lw $11,3*4($4) addu $15,$2 sltu $2,$15,$2 mflo ($1,$14,$7) mfhi ($14,$14,$7) addu $15,$1 addu $2,$14 multu ($8,$7) sltu $1,$15,$1 sw $15,4($4) addu $2,$1 subu $6,4 addu $4,4*4 addu $5,4*4 addu $9,$2 sltu $2,$9,$2 mflo ($1,$8,$7) mfhi ($8,$8,$7) addu $9,$1 addu $2,$8 multu ($10,$7) sltu $1,$9,$1 sw $9,-2*4($4) addu $2,$1 and $8,$6,$3 addu $11,$2 sltu $2,$11,$2 mflo ($1,$10,$7) mfhi ($10,$10,$7) addu $11,$1 addu $2,$10 sltu $1,$11,$1 sw $11,-4($4) .set noreorder bgtz $8,.L_bn_mul_add_words_loop addu $2,$1 beqz $6,.L_bn_mul_add_words_return nop .L_bn_mul_add_words_tail: .set reorder lw $12,0($5) multu ($12,$7) lw $13,0($4) subu $6,1 addu $13,$2 sltu $2,$13,$2 mflo ($1,$12,$7) mfhi ($12,$12,$7) addu $13,$1 addu $2,$12 sltu $1,$13,$1 sw $13,0($4) addu $2,$1 beqz $6,.L_bn_mul_add_words_return lw $12,4($5) multu ($12,$7) lw $13,4($4) subu $6,1 addu $13,$2 sltu $2,$13,$2 mflo ($1,$12,$7) mfhi ($12,$12,$7) addu $13,$1 addu $2,$12 sltu $1,$13,$1 sw $13,4($4) addu $2,$1 beqz $6,.L_bn_mul_add_words_return lw $12,2*4($5) multu ($12,$7) lw $13,2*4($4) addu $13,$2 sltu $2,$13,$2 mflo ($1,$12,$7) mfhi ($12,$12,$7) addu $13,$1 addu $2,$12 sltu $1,$13,$1 sw $13,2*4($4) addu $2,$1 .L_bn_mul_add_words_return: .set noreorder jr $31 move $4,$2 .end bn_mul_add_words_internal .align 5 .globl bn_mul_words .ent bn_mul_words bn_mul_words: .set noreorder bgtz $6,bn_mul_words_internal move $2,$0 jr $31 move $4,$2 .end bn_mul_words .align 5 .ent bn_mul_words_internal bn_mul_words_internal: .set reorder li $3,-4 and $8,$6,$3 beqz $8,.L_bn_mul_words_tail .L_bn_mul_words_loop: lw $12,0($5) multu ($12,$7) lw $14,4($5) lw $8,2*4($5) lw $10,3*4($5) mflo ($1,$12,$7) mfhi ($12,$12,$7) addu $2,$1 sltu $13,$2,$1 multu ($14,$7) sw $2,0($4) addu $2,$13,$12 subu $6,4 addu $4,4*4 addu $5,4*4 mflo ($1,$14,$7) mfhi ($14,$14,$7) addu $2,$1 sltu $15,$2,$1 multu ($8,$7) sw $2,-3*4($4) addu $2,$15,$14 mflo ($1,$8,$7) mfhi ($8,$8,$7) addu $2,$1 sltu $9,$2,$1 multu ($10,$7) sw $2,-2*4($4) addu $2,$9,$8 and $8,$6,$3 mflo ($1,$10,$7) mfhi ($10,$10,$7) addu $2,$1 sltu $11,$2,$1 sw $2,-4($4) .set noreorder bgtz $8,.L_bn_mul_words_loop addu $2,$11,$10 beqz $6,.L_bn_mul_words_return nop .L_bn_mul_words_tail: .set reorder lw $12,0($5) multu ($12,$7) subu $6,1 mflo ($1,$12,$7) mfhi ($12,$12,$7) addu $2,$1 sltu $13,$2,$1 sw $2,0($4) addu $2,$13,$12 beqz $6,.L_bn_mul_words_return lw $12,4($5) multu ($12,$7) subu $6,1 mflo ($1,$12,$7) mfhi ($12,$12,$7) addu $2,$1 sltu $13,$2,$1 sw $2,4($4) addu $2,$13,$12 beqz $6,.L_bn_mul_words_return lw $12,2*4($5) multu ($12,$7) mflo ($1,$12,$7) mfhi ($12,$12,$7) addu $2,$1 sltu $13,$2,$1 sw $2,2*4($4) addu $2,$13,$12 .L_bn_mul_words_return: .set noreorder jr $31 move $4,$2 .end bn_mul_words_internal .align 5 .globl bn_sqr_words .ent bn_sqr_words bn_sqr_words: .set noreorder bgtz $6,bn_sqr_words_internal move $2,$0 jr $31 move $4,$2 .end bn_sqr_words .align 5 .ent bn_sqr_words_internal bn_sqr_words_internal: .set reorder li $3,-4 and $8,$6,$3 beqz $8,.L_bn_sqr_words_tail .L_bn_sqr_words_loop: lw $12,0($5) multu ($12,$12) lw $14,4($5) lw $8,2*4($5) lw $10,3*4($5) mflo ($13,$12,$12) mfhi ($12,$12,$12) sw $13,0($4) sw $12,4($4) multu ($14,$14) subu $6,4 addu $4,8*4 addu $5,4*4 mflo ($15,$14,$14) mfhi ($14,$14,$14) sw $15,-6*4($4) sw $14,-5*4($4) multu ($8,$8) mflo ($9,$8,$8) mfhi ($8,$8,$8) sw $9,-4*4($4) sw $8,-3*4($4) multu ($10,$10) and $8,$6,$3 mflo ($11,$10,$10) mfhi ($10,$10,$10) sw $11,-2*4($4) .set noreorder bgtz $8,.L_bn_sqr_words_loop sw $10,-4($4) beqz $6,.L_bn_sqr_words_return nop .L_bn_sqr_words_tail: .set reorder lw $12,0($5) multu ($12,$12) subu $6,1 mflo ($13,$12,$12) mfhi ($12,$12,$12) sw $13,0($4) sw $12,4($4) beqz $6,.L_bn_sqr_words_return lw $12,4($5) multu ($12,$12) subu $6,1 mflo ($13,$12,$12) mfhi ($12,$12,$12) sw $13,2*4($4) sw $12,3*4($4) beqz $6,.L_bn_sqr_words_return lw $12,2*4($5) multu ($12,$12) mflo ($13,$12,$12) mfhi ($12,$12,$12) sw $13,4*4($4) sw $12,5*4($4) .L_bn_sqr_words_return: .set noreorder jr $31 move $4,$2 .end bn_sqr_words_internal .align 5 .globl bn_add_words .ent bn_add_words bn_add_words: .set noreorder bgtz $7,bn_add_words_internal move $2,$0 jr $31 move $4,$2 .end bn_add_words .align 5 .ent bn_add_words_internal bn_add_words_internal: .set reorder li $3,-4 and $1,$7,$3 beqz $1,.L_bn_add_words_tail .L_bn_add_words_loop: lw $12,0($5) lw $8,0($6) subu $7,4 lw $13,4($5) and $1,$7,$3 lw $14,2*4($5) addu $6,4*4 lw $15,3*4($5) addu $4,4*4 lw $9,-3*4($6) addu $5,4*4 lw $10,-2*4($6) lw $11,-4($6) addu $8,$12 sltu $24,$8,$12 addu $12,$8,$2 sltu $2,$12,$8 sw $12,-4*4($4) addu $2,$24 addu $9,$13 sltu $25,$9,$13 addu $13,$9,$2 sltu $2,$13,$9 sw $13,-3*4($4) addu $2,$25 addu $10,$14 sltu $24,$10,$14 addu $14,$10,$2 sltu $2,$14,$10 sw $14,-2*4($4) addu $2,$24 addu $11,$15 sltu $25,$11,$15 addu $15,$11,$2 sltu $2,$15,$11 sw $15,-4($4) .set noreorder bgtz $1,.L_bn_add_words_loop addu $2,$25 beqz $7,.L_bn_add_words_return nop .L_bn_add_words_tail: .set reorder lw $12,0($5) lw $8,0($6) addu $8,$12 subu $7,1 sltu $24,$8,$12 addu $12,$8,$2 sltu $2,$12,$8 sw $12,0($4) addu $2,$24 beqz $7,.L_bn_add_words_return lw $13,4($5) lw $9,4($6) addu $9,$13 subu $7,1 sltu $25,$9,$13 addu $13,$9,$2 sltu $2,$13,$9 sw $13,4($4) addu $2,$25 beqz $7,.L_bn_add_words_return lw $14,2*4($5) lw $10,2*4($6) addu $10,$14 sltu $24,$10,$14 addu $14,$10,$2 sltu $2,$14,$10 sw $14,2*4($4) addu $2,$24 .L_bn_add_words_return: .set noreorder jr $31 move $4,$2 .end bn_add_words_internal .align 5 .globl bn_sub_words .ent bn_sub_words bn_sub_words: .set noreorder bgtz $7,bn_sub_words_internal move $2,$0 jr $31 move $4,$0 .end bn_sub_words .align 5 .ent bn_sub_words_internal bn_sub_words_internal: .set reorder li $3,-4 and $1,$7,$3 beqz $1,.L_bn_sub_words_tail .L_bn_sub_words_loop: lw $12,0($5) lw $8,0($6) subu $7,4 lw $13,4($5) and $1,$7,$3 lw $14,2*4($5) addu $6,4*4 lw $15,3*4($5) addu $4,4*4 lw $9,-3*4($6) addu $5,4*4 lw $10,-2*4($6) lw $11,-4($6) sltu $24,$12,$8 subu $8,$12,$8 subu $12,$8,$2 sgtu $2,$12,$8 sw $12,-4*4($4) addu $2,$24 sltu $25,$13,$9 subu $9,$13,$9 subu $13,$9,$2 sgtu $2,$13,$9 sw $13,-3*4($4) addu $2,$25 sltu $24,$14,$10 subu $10,$14,$10 subu $14,$10,$2 sgtu $2,$14,$10 sw $14,-2*4($4) addu $2,$24 sltu $25,$15,$11 subu $11,$15,$11 subu $15,$11,$2 sgtu $2,$15,$11 sw $15,-4($4) .set noreorder bgtz $1,.L_bn_sub_words_loop addu $2,$25 beqz $7,.L_bn_sub_words_return nop .L_bn_sub_words_tail: .set reorder lw $12,0($5) lw $8,0($6) subu $7,1 sltu $24,$12,$8 subu $8,$12,$8 subu $12,$8,$2 sgtu $2,$12,$8 sw $12,0($4) addu $2,$24 beqz $7,.L_bn_sub_words_return lw $13,4($5) subu $7,1 lw $9,4($6) sltu $25,$13,$9 subu $9,$13,$9 subu $13,$9,$2 sgtu $2,$13,$9 sw $13,4($4) addu $2,$25 beqz $7,.L_bn_sub_words_return lw $14,2*4($5) lw $10,2*4($6) sltu $24,$14,$10 subu $10,$14,$10 subu $14,$10,$2 sgtu $2,$14,$10 sw $14,2*4($4) addu $2,$24 .L_bn_sub_words_return: .set noreorder jr $31 move $4,$2 .end bn_sub_words_internal #if 0 /* * The bn_div_3_words entry point is re-used for constant-time interface. * Implementation is retained as historical reference. */ .align 5 .globl bn_div_3_words .ent bn_div_3_words bn_div_3_words: .set noreorder move $7,$4 # we know that bn_div_words does not # touch $7, $10, $11 and preserves $6 # so that we can save two arguments # and return address in registers # instead of stack:-) lw $4,($7) move $10,$5 bne $4,$6,bn_div_3_words_internal lw $5,-4($7) li $2,-1 jr $31 move $4,$2 .end bn_div_3_words .align 5 .ent bn_div_3_words_internal bn_div_3_words_internal: .set reorder move $11,$31 bal bn_div_words_internal move $31,$11 multu ($10,$2) lw $14,-2*4($7) move $8,$0 mfhi ($13,$10,$2) mflo ($12,$10,$2) sltu $24,$13,$5 .L_bn_div_3_words_inner_loop: bnez $24,.L_bn_div_3_words_inner_loop_done sgeu $1,$14,$12 seq $25,$13,$5 and $1,$25 sltu $15,$12,$10 addu $5,$6 subu $13,$15 subu $12,$10 sltu $24,$13,$5 sltu $8,$5,$6 or $24,$8 .set noreorder beqz $1,.L_bn_div_3_words_inner_loop subu $2,1 addu $2,1 .set reorder .L_bn_div_3_words_inner_loop_done: .set noreorder jr $31 move $4,$2 .end bn_div_3_words_internal #endif .align 5 .globl bn_div_words .ent bn_div_words bn_div_words: .set noreorder bnez $6,bn_div_words_internal li $2,-1 # I would rather signal div-by-zero # which can be done with 'break 7' jr $31 move $4,$2 .end bn_div_words .align 5 .ent bn_div_words_internal bn_div_words_internal: move $3,$0 bltz $6,.L_bn_div_words_body move $25,$3 sll $6,1 bgtz $6,.-4 addu $25,1 .set reorder negu $13,$25 li $14,-1 sll $14,$13 and $14,$4 srl $1,$5,$13 .set noreorder beqz $14,.+12 nop break 6 # signal overflow .set reorder sll $4,$25 sll $5,$25 or $4,$1 .L_bn_div_words_body: srl $3,$6,4*4 # bits sgeu $1,$4,$6 .set noreorder beqz $1,.+12 nop subu $4,$6 .set reorder li $8,-1 srl $9,$4,4*4 # bits srl $8,4*4 # q=0xffffffff beq $3,$9,.L_bn_div_words_skip_div1 divu ($4,$3) mfqt ($8,$4,$3) .L_bn_div_words_skip_div1: multu ($6,$8) sll $15,$4,4*4 # bits srl $1,$5,4*4 # bits or $15,$1 mflo ($12,$6,$8) mfhi ($13,$6,$8) .L_bn_div_words_inner_loop1: sltu $14,$15,$12 seq $24,$9,$13 sltu $1,$9,$13 and $14,$24 sltu $2,$12,$6 or $1,$14 .set noreorder beqz $1,.L_bn_div_words_inner_loop1_done subu $13,$2 subu $12,$6 b .L_bn_div_words_inner_loop1 subu $8,1 .set reorder .L_bn_div_words_inner_loop1_done: sll $5,4*4 # bits subu $4,$15,$12 sll $2,$8,4*4 # bits li $8,-1 srl $9,$4,4*4 # bits srl $8,4*4 # q=0xffffffff beq $3,$9,.L_bn_div_words_skip_div2 divu ($4,$3) mfqt ($8,$4,$3) .L_bn_div_words_skip_div2: multu ($6,$8) sll $15,$4,4*4 # bits srl $1,$5,4*4 # bits or $15,$1 mflo ($12,$6,$8) mfhi ($13,$6,$8) .L_bn_div_words_inner_loop2: sltu $14,$15,$12 seq $24,$9,$13 sltu $1,$9,$13 and $14,$24 sltu $3,$12,$6 or $1,$14 .set noreorder beqz $1,.L_bn_div_words_inner_loop2_done subu $13,$3 subu $12,$6 b .L_bn_div_words_inner_loop2 subu $8,1 .set reorder .L_bn_div_words_inner_loop2_done: subu $4,$15,$12 or $2,$8 srl $3,$4,$25 # $3 contains remainder if anybody wants it srl $6,$25 # restore $6 .set noreorder move $5,$3 jr $31 move $4,$2 .end bn_div_words_internal .align 5 .globl bn_mul_comba8 .ent bn_mul_comba8 bn_mul_comba8: .set noreorder .frame $29,6*4,$31 .mask 0x003f0000,-4 subu $29,6*4 sw $21,5*4($29) sw $20,4*4($29) sw $19,3*4($29) sw $18,2*4($29) sw $17,1*4($29) sw $16,0*4($29) .set reorder lw $12,0($5) # If compiled with -mips3 option on # R5000 box assembler barks on this # 1ine with "should not have mult/div # as last instruction in bb (R10K # bug)" warning. If anybody out there # has a clue about how to circumvent # this do send me a note. # lw $8,0($6) lw $13,4($5) lw $14,2*4($5) multu ($12,$8) # mul_add_c(a[0],b[0],c1,c2,c3); lw $15,3*4($5) lw $9,4($6) lw $10,2*4($6) lw $11,3*4($6) mflo ($2,$12,$8) mfhi ($3,$12,$8) lw $16,4*4($5) lw $18,5*4($5) multu ($12,$9) # mul_add_c(a[0],b[1],c2,c3,c1); lw $20,6*4($5) lw $5,7*4($5) lw $17,4*4($6) lw $19,5*4($6) mflo ($24,$12,$9) mfhi ($25,$12,$9) addu $3,$24 sltu $1,$3,$24 multu ($13,$8) # mul_add_c(a[1],b[0],c2,c3,c1); addu $7,$25,$1 lw $21,6*4($6) lw $6,7*4($6) sw $2,0($4) # r[0]=c1; mflo ($24,$13,$8) mfhi ($25,$13,$8) addu $3,$24 sltu $1,$3,$24 multu ($14,$8) # mul_add_c(a[2],b[0],c3,c1,c2); addu $25,$1 addu $7,$25 sltu $2,$7,$25 sw $3,4($4) # r[1]=c2; mflo ($24,$14,$8) mfhi ($25,$14,$8) addu $7,$24 sltu $1,$7,$24 multu ($13,$9) # mul_add_c(a[1],b[1],c3,c1,c2); addu $25,$1 addu $2,$25 mflo ($24,$13,$9) mfhi ($25,$13,$9) addu $7,$24 sltu $1,$7,$24 multu ($12,$10) # mul_add_c(a[0],b[2],c3,c1,c2); addu $25,$1 addu $2,$25 sltu $3,$2,$25 mflo ($24,$12,$10) mfhi ($25,$12,$10) addu $7,$24 sltu $1,$7,$24 multu ($12,$11) # mul_add_c(a[0],b[3],c1,c2,c3); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 sw $7,2*4($4) # r[2]=c3; mflo ($24,$12,$11) mfhi ($25,$12,$11) addu $2,$24 sltu $1,$2,$24 multu ($13,$10) # mul_add_c(a[1],b[2],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $7,$3,$25 mflo ($24,$13,$10) mfhi ($25,$13,$10) addu $2,$24 sltu $1,$2,$24 multu ($14,$9) # mul_add_c(a[2],b[1],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 mflo ($24,$14,$9) mfhi ($25,$14,$9) addu $2,$24 sltu $1,$2,$24 multu ($15,$8) # mul_add_c(a[3],b[0],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 mflo ($24,$15,$8) mfhi ($25,$15,$8) addu $2,$24 sltu $1,$2,$24 multu ($16,$8) # mul_add_c(a[4],b[0],c2,c3,c1); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 sw $2,3*4($4) # r[3]=c1; mflo ($24,$16,$8) mfhi ($25,$16,$8) addu $3,$24 sltu $1,$3,$24 multu ($15,$9) # mul_add_c(a[3],b[1],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $2,$7,$25 mflo ($24,$15,$9) mfhi ($25,$15,$9) addu $3,$24 sltu $1,$3,$24 multu ($14,$10) # mul_add_c(a[2],b[2],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 mflo ($24,$14,$10) mfhi ($25,$14,$10) addu $3,$24 sltu $1,$3,$24 multu ($13,$11) # mul_add_c(a[1],b[3],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 mflo ($24,$13,$11) mfhi ($25,$13,$11) addu $3,$24 sltu $1,$3,$24 multu ($12,$17) # mul_add_c(a[0],b[4],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 mflo ($24,$12,$17) mfhi ($25,$12,$17) addu $3,$24 sltu $1,$3,$24 multu ($12,$19) # mul_add_c(a[0],b[5],c3,c1,c2); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 sw $3,4*4($4) # r[4]=c2; mflo ($24,$12,$19) mfhi ($25,$12,$19) addu $7,$24 sltu $1,$7,$24 multu ($13,$17) # mul_add_c(a[1],b[4],c3,c1,c2); addu $25,$1 addu $2,$25 sltu $3,$2,$25 mflo ($24,$13,$17) mfhi ($25,$13,$17) addu $7,$24 sltu $1,$7,$24 multu ($14,$11) # mul_add_c(a[2],b[3],c3,c1,c2); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 mflo ($24,$14,$11) mfhi ($25,$14,$11) addu $7,$24 sltu $1,$7,$24 multu ($15,$10) # mul_add_c(a[3],b[2],c3,c1,c2); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 mflo ($24,$15,$10) mfhi ($25,$15,$10) addu $7,$24 sltu $1,$7,$24 multu ($16,$9) # mul_add_c(a[4],b[1],c3,c1,c2); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 mflo ($24,$16,$9) mfhi ($25,$16,$9) addu $7,$24 sltu $1,$7,$24 multu ($18,$8) # mul_add_c(a[5],b[0],c3,c1,c2); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 mflo ($24,$18,$8) mfhi ($25,$18,$8) addu $7,$24 sltu $1,$7,$24 multu ($20,$8) # mul_add_c(a[6],b[0],c1,c2,c3); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 sw $7,5*4($4) # r[5]=c3; mflo ($24,$20,$8) mfhi ($25,$20,$8) addu $2,$24 sltu $1,$2,$24 multu ($18,$9) # mul_add_c(a[5],b[1],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $7,$3,$25 mflo ($24,$18,$9) mfhi ($25,$18,$9) addu $2,$24 sltu $1,$2,$24 multu ($16,$10) # mul_add_c(a[4],b[2],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 mflo ($24,$16,$10) mfhi ($25,$16,$10) addu $2,$24 sltu $1,$2,$24 multu ($15,$11) # mul_add_c(a[3],b[3],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 mflo ($24,$15,$11) mfhi ($25,$15,$11) addu $2,$24 sltu $1,$2,$24 multu ($14,$17) # mul_add_c(a[2],b[4],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 mflo ($24,$14,$17) mfhi ($25,$14,$17) addu $2,$24 sltu $1,$2,$24 multu ($13,$19) # mul_add_c(a[1],b[5],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 mflo ($24,$13,$19) mfhi ($25,$13,$19) addu $2,$24 sltu $1,$2,$24 multu ($12,$21) # mul_add_c(a[0],b[6],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 mflo ($24,$12,$21) mfhi ($25,$12,$21) addu $2,$24 sltu $1,$2,$24 multu ($12,$6) # mul_add_c(a[0],b[7],c2,c3,c1); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 sw $2,6*4($4) # r[6]=c1; mflo ($24,$12,$6) mfhi ($25,$12,$6) addu $3,$24 sltu $1,$3,$24 multu ($13,$21) # mul_add_c(a[1],b[6],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $2,$7,$25 mflo ($24,$13,$21) mfhi ($25,$13,$21) addu $3,$24 sltu $1,$3,$24 multu ($14,$19) # mul_add_c(a[2],b[5],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 mflo ($24,$14,$19) mfhi ($25,$14,$19) addu $3,$24 sltu $1,$3,$24 multu ($15,$17) # mul_add_c(a[3],b[4],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 mflo ($24,$15,$17) mfhi ($25,$15,$17) addu $3,$24 sltu $1,$3,$24 multu ($16,$11) # mul_add_c(a[4],b[3],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 mflo ($24,$16,$11) mfhi ($25,$16,$11) addu $3,$24 sltu $1,$3,$24 multu ($18,$10) # mul_add_c(a[5],b[2],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 mflo ($24,$18,$10) mfhi ($25,$18,$10) addu $3,$24 sltu $1,$3,$24 multu ($20,$9) # mul_add_c(a[6],b[1],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 mflo ($24,$20,$9) mfhi ($25,$20,$9) addu $3,$24 sltu $1,$3,$24 multu ($5,$8) # mul_add_c(a[7],b[0],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 mflo ($24,$5,$8) mfhi ($25,$5,$8) addu $3,$24 sltu $1,$3,$24 multu ($5,$9) # mul_add_c(a[7],b[1],c3,c1,c2); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 sw $3,7*4($4) # r[7]=c2; mflo ($24,$5,$9) mfhi ($25,$5,$9) addu $7,$24 sltu $1,$7,$24 multu ($20,$10) # mul_add_c(a[6],b[2],c3,c1,c2); addu $25,$1 addu $2,$25 sltu $3,$2,$25 mflo ($24,$20,$10) mfhi ($25,$20,$10) addu $7,$24 sltu $1,$7,$24 multu ($18,$11) # mul_add_c(a[5],b[3],c3,c1,c2); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 mflo ($24,$18,$11) mfhi ($25,$18,$11) addu $7,$24 sltu $1,$7,$24 multu ($16,$17) # mul_add_c(a[4],b[4],c3,c1,c2); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 mflo ($24,$16,$17) mfhi ($25,$16,$17) addu $7,$24 sltu $1,$7,$24 multu ($15,$19) # mul_add_c(a[3],b[5],c3,c1,c2); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 mflo ($24,$15,$19) mfhi ($25,$15,$19) addu $7,$24 sltu $1,$7,$24 multu ($14,$21) # mul_add_c(a[2],b[6],c3,c1,c2); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 mflo ($24,$14,$21) mfhi ($25,$14,$21) addu $7,$24 sltu $1,$7,$24 multu ($13,$6) # mul_add_c(a[1],b[7],c3,c1,c2); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 mflo ($24,$13,$6) mfhi ($25,$13,$6) addu $7,$24 sltu $1,$7,$24 multu ($14,$6) # mul_add_c(a[2],b[7],c1,c2,c3); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 sw $7,8*4($4) # r[8]=c3; mflo ($24,$14,$6) mfhi ($25,$14,$6) addu $2,$24 sltu $1,$2,$24 multu ($15,$21) # mul_add_c(a[3],b[6],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $7,$3,$25 mflo ($24,$15,$21) mfhi ($25,$15,$21) addu $2,$24 sltu $1,$2,$24 multu ($16,$19) # mul_add_c(a[4],b[5],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 mflo ($24,$16,$19) mfhi ($25,$16,$19) addu $2,$24 sltu $1,$2,$24 multu ($18,$17) # mul_add_c(a[5],b[4],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 mflo ($24,$18,$17) mfhi ($25,$18,$17) addu $2,$24 sltu $1,$2,$24 multu ($20,$11) # mul_add_c(a[6],b[3],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 mflo ($24,$20,$11) mfhi ($25,$20,$11) addu $2,$24 sltu $1,$2,$24 multu ($5,$10) # mul_add_c(a[7],b[2],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 mflo ($24,$5,$10) mfhi ($25,$5,$10) addu $2,$24 sltu $1,$2,$24 multu ($5,$11) # mul_add_c(a[7],b[3],c2,c3,c1); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 sw $2,9*4($4) # r[9]=c1; mflo ($24,$5,$11) mfhi ($25,$5,$11) addu $3,$24 sltu $1,$3,$24 multu ($20,$17) # mul_add_c(a[6],b[4],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $2,$7,$25 mflo ($24,$20,$17) mfhi ($25,$20,$17) addu $3,$24 sltu $1,$3,$24 multu ($18,$19) # mul_add_c(a[5],b[5],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 mflo ($24,$18,$19) mfhi ($25,$18,$19) addu $3,$24 sltu $1,$3,$24 multu ($16,$21) # mul_add_c(a[4],b[6],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 mflo ($24,$16,$21) mfhi ($25,$16,$21) addu $3,$24 sltu $1,$3,$24 multu ($15,$6) # mul_add_c(a[3],b[7],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 mflo ($24,$15,$6) mfhi ($25,$15,$6) addu $3,$24 sltu $1,$3,$24 multu ($16,$6) # mul_add_c(a[4],b[7],c3,c1,c2); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 sw $3,10*4($4) # r[10]=c2; mflo ($24,$16,$6) mfhi ($25,$16,$6) addu $7,$24 sltu $1,$7,$24 multu ($18,$21) # mul_add_c(a[5],b[6],c3,c1,c2); addu $25,$1 addu $2,$25 sltu $3,$2,$25 mflo ($24,$18,$21) mfhi ($25,$18,$21) addu $7,$24 sltu $1,$7,$24 multu ($20,$19) # mul_add_c(a[6],b[5],c3,c1,c2); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 mflo ($24,$20,$19) mfhi ($25,$20,$19) addu $7,$24 sltu $1,$7,$24 multu ($5,$17) # mul_add_c(a[7],b[4],c3,c1,c2); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 mflo ($24,$5,$17) mfhi ($25,$5,$17) addu $7,$24 sltu $1,$7,$24 multu ($5,$19) # mul_add_c(a[7],b[5],c1,c2,c3); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 sw $7,11*4($4) # r[11]=c3; mflo ($24,$5,$19) mfhi ($25,$5,$19) addu $2,$24 sltu $1,$2,$24 multu ($20,$21) # mul_add_c(a[6],b[6],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $7,$3,$25 mflo ($24,$20,$21) mfhi ($25,$20,$21) addu $2,$24 sltu $1,$2,$24 multu ($18,$6) # mul_add_c(a[5],b[7],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 mflo ($24,$18,$6) mfhi ($25,$18,$6) addu $2,$24 sltu $1,$2,$24 multu ($20,$6) # mul_add_c(a[6],b[7],c2,c3,c1); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 sw $2,12*4($4) # r[12]=c1; mflo ($24,$20,$6) mfhi ($25,$20,$6) addu $3,$24 sltu $1,$3,$24 multu ($5,$21) # mul_add_c(a[7],b[6],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $2,$7,$25 mflo ($24,$5,$21) mfhi ($25,$5,$21) addu $3,$24 sltu $1,$3,$24 multu ($5,$6) # mul_add_c(a[7],b[7],c3,c1,c2); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 sw $3,13*4($4) # r[13]=c2; mflo ($24,$5,$6) mfhi ($25,$5,$6) addu $7,$24 sltu $1,$7,$24 addu $25,$1 addu $2,$25 sw $7,14*4($4) # r[14]=c3; sw $2,15*4($4) # r[15]=c1; .set noreorder lw $21,5*4($29) lw $20,4*4($29) lw $19,3*4($29) lw $18,2*4($29) lw $17,1*4($29) lw $16,0*4($29) jr $31 addu $29,6*4 .end bn_mul_comba8 .align 5 .globl bn_mul_comba4 .ent bn_mul_comba4 bn_mul_comba4: .set reorder lw $12,0($5) lw $8,0($6) lw $13,4($5) lw $14,2*4($5) multu ($12,$8) # mul_add_c(a[0],b[0],c1,c2,c3); lw $15,3*4($5) lw $9,4($6) lw $10,2*4($6) lw $11,3*4($6) mflo ($2,$12,$8) mfhi ($3,$12,$8) sw $2,0($4) multu ($12,$9) # mul_add_c(a[0],b[1],c2,c3,c1); mflo ($24,$12,$9) mfhi ($25,$12,$9) addu $3,$24 sltu $1,$3,$24 multu ($13,$8) # mul_add_c(a[1],b[0],c2,c3,c1); addu $7,$25,$1 mflo ($24,$13,$8) mfhi ($25,$13,$8) addu $3,$24 sltu $1,$3,$24 multu ($14,$8) # mul_add_c(a[2],b[0],c3,c1,c2); addu $25,$1 addu $7,$25 sltu $2,$7,$25 sw $3,4($4) mflo ($24,$14,$8) mfhi ($25,$14,$8) addu $7,$24 sltu $1,$7,$24 multu ($13,$9) # mul_add_c(a[1],b[1],c3,c1,c2); addu $25,$1 addu $2,$25 mflo ($24,$13,$9) mfhi ($25,$13,$9) addu $7,$24 sltu $1,$7,$24 multu ($12,$10) # mul_add_c(a[0],b[2],c3,c1,c2); addu $25,$1 addu $2,$25 sltu $3,$2,$25 mflo ($24,$12,$10) mfhi ($25,$12,$10) addu $7,$24 sltu $1,$7,$24 multu ($12,$11) # mul_add_c(a[0],b[3],c1,c2,c3); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 sw $7,2*4($4) mflo ($24,$12,$11) mfhi ($25,$12,$11) addu $2,$24 sltu $1,$2,$24 multu ($13,$10) # mul_add_c(a[1],b[2],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $7,$3,$25 mflo ($24,$13,$10) mfhi ($25,$13,$10) addu $2,$24 sltu $1,$2,$24 multu ($14,$9) # mul_add_c(a[2],b[1],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 mflo ($24,$14,$9) mfhi ($25,$14,$9) addu $2,$24 sltu $1,$2,$24 multu ($15,$8) # mul_add_c(a[3],b[0],c1,c2,c3); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 mflo ($24,$15,$8) mfhi ($25,$15,$8) addu $2,$24 sltu $1,$2,$24 multu ($15,$9) # mul_add_c(a[3],b[1],c2,c3,c1); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 sw $2,3*4($4) mflo ($24,$15,$9) mfhi ($25,$15,$9) addu $3,$24 sltu $1,$3,$24 multu ($14,$10) # mul_add_c(a[2],b[2],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $2,$7,$25 mflo ($24,$14,$10) mfhi ($25,$14,$10) addu $3,$24 sltu $1,$3,$24 multu ($13,$11) # mul_add_c(a[1],b[3],c2,c3,c1); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 mflo ($24,$13,$11) mfhi ($25,$13,$11) addu $3,$24 sltu $1,$3,$24 multu ($14,$11) # mul_add_c(a[2],b[3],c3,c1,c2); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 sw $3,4*4($4) mflo ($24,$14,$11) mfhi ($25,$14,$11) addu $7,$24 sltu $1,$7,$24 multu ($15,$10) # mul_add_c(a[3],b[2],c3,c1,c2); addu $25,$1 addu $2,$25 sltu $3,$2,$25 mflo ($24,$15,$10) mfhi ($25,$15,$10) addu $7,$24 sltu $1,$7,$24 multu ($15,$11) # mul_add_c(a[3],b[3],c1,c2,c3); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 sw $7,5*4($4) mflo ($24,$15,$11) mfhi ($25,$15,$11) addu $2,$24 sltu $1,$2,$24 addu $25,$1 addu $3,$25 sw $2,6*4($4) sw $3,7*4($4) .set noreorder jr $31 nop .end bn_mul_comba4 .align 5 .globl bn_sqr_comba8 .ent bn_sqr_comba8 bn_sqr_comba8: .set reorder lw $12,0($5) lw $13,4($5) lw $14,2*4($5) lw $15,3*4($5) multu ($12,$12) # mul_add_c(a[0],b[0],c1,c2,c3); lw $8,4*4($5) lw $9,5*4($5) lw $10,6*4($5) lw $11,7*4($5) mflo ($2,$12,$12) mfhi ($3,$12,$12) sw $2,0($4) multu ($12,$13) # mul_add_c2(a[0],b[1],c2,c3,c1); mflo ($24,$12,$13) mfhi ($25,$12,$13) slt $2,$25,$0 sll $25,1 multu ($14,$12) # mul_add_c2(a[2],b[0],c3,c1,c2); slt $6,$24,$0 addu $25,$6 sll $24,1 addu $3,$24 sltu $1,$3,$24 addu $7,$25,$1 sw $3,4($4) sltu $1,$7,$25 addu $2,$1 mflo ($24,$14,$12) mfhi ($25,$14,$12) addu $7,$24 sltu $1,$7,$24 multu ($13,$13) # forward multiplication addu $7,$24 addu $1,$25 sltu $24,$7,$24 addu $2,$1 addu $25,$24 sltu $3,$2,$1 addu $2,$25 sltu $25,$2,$25 addu $3,$25 mflo ($24,$13,$13) mfhi ($25,$13,$13) addu $7,$24 sltu $1,$7,$24 multu ($12,$15) # mul_add_c2(a[0],b[3],c1,c2,c3); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 sw $7,2*4($4) mflo ($24,$12,$15) mfhi ($25,$12,$15) addu $2,$24 sltu $1,$2,$24 multu ($13,$14) # forward multiplication addu $2,$24 addu $1,$25 sltu $24,$2,$24 addu $3,$1 addu $25,$24 sltu $7,$3,$1 addu $3,$25 sltu $25,$3,$25 addu $7,$25 mflo ($24,$13,$14) mfhi ($25,$13,$14) addu $2,$24 sltu $1,$2,$24 multu ($8,$12) # forward multiplication addu $2,$24 addu $1,$25 sltu $24,$2,$24 addu $3,$1 addu $25,$24 sltu $1,$3,$1 addu $3,$25 addu $7,$1 sltu $25,$3,$25 addu $7,$25 mflo ($24,$8,$12) mfhi ($25,$8,$12) sw $2,3*4($4) addu $3,$24 sltu $1,$3,$24 multu ($15,$13) # forward multiplication addu $3,$24 addu $1,$25 sltu $24,$3,$24 addu $7,$1 addu $25,$24 sltu $2,$7,$1 addu $7,$25 sltu $25,$7,$25 addu $2,$25 mflo ($24,$15,$13) mfhi ($25,$15,$13) addu $3,$24 sltu $1,$3,$24 multu ($14,$14) # forward multiplication addu $3,$24 addu $1,$25 sltu $24,$3,$24 addu $7,$1 addu $25,$24 sltu $1,$7,$1 addu $7,$25 addu $2,$1 sltu $25,$7,$25 addu $2,$25 mflo ($24,$14,$14) mfhi ($25,$14,$14) addu $3,$24 sltu $1,$3,$24 multu ($12,$9) # mul_add_c2(a[0],b[5],c3,c1,c2); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 sw $3,4*4($4) mflo ($24,$12,$9) mfhi ($25,$12,$9) addu $7,$24 sltu $1,$7,$24 multu ($13,$8) # forward multiplication addu $7,$24 addu $1,$25 sltu $24,$7,$24 addu $2,$1 addu $25,$24 sltu $3,$2,$1 addu $2,$25 sltu $25,$2,$25 addu $3,$25 mflo ($24,$13,$8) mfhi ($25,$13,$8) addu $7,$24 sltu $1,$7,$24 multu ($14,$15) # forward multiplication addu $7,$24 addu $1,$25 sltu $24,$7,$24 addu $2,$1 addu $25,$24 sltu $1,$2,$1 addu $2,$25 addu $3,$1 sltu $25,$2,$25 addu $3,$25 mflo ($24,$14,$15) mfhi ($25,$14,$15) addu $7,$24 sltu $1,$7,$24 multu ($10,$12) # forward multiplication addu $7,$24 addu $1,$25 sltu $24,$7,$24 addu $2,$1 addu $25,$24 sltu $1,$2,$1 addu $2,$25 addu $3,$1 sltu $25,$2,$25 addu $3,$25 mflo ($24,$10,$12) mfhi ($25,$10,$12) sw $7,5*4($4) addu $2,$24 sltu $1,$2,$24 multu ($9,$13) # forward multiplication addu $2,$24 addu $1,$25 sltu $24,$2,$24 addu $3,$1 addu $25,$24 sltu $7,$3,$1 addu $3,$25 sltu $25,$3,$25 addu $7,$25 mflo ($24,$9,$13) mfhi ($25,$9,$13) addu $2,$24 sltu $1,$2,$24 multu ($8,$14) # forward multiplication addu $2,$24 addu $1,$25 sltu $24,$2,$24 addu $3,$1 addu $25,$24 sltu $1,$3,$1 addu $3,$25 addu $7,$1 sltu $25,$3,$25 addu $7,$25 mflo ($24,$8,$14) mfhi ($25,$8,$14) addu $2,$24 sltu $1,$2,$24 multu ($15,$15) # forward multiplication addu $2,$24 addu $1,$25 sltu $24,$2,$24 addu $3,$1 addu $25,$24 sltu $1,$3,$1 addu $3,$25 addu $7,$1 sltu $25,$3,$25 addu $7,$25 mflo ($24,$15,$15) mfhi ($25,$15,$15) addu $2,$24 sltu $1,$2,$24 multu ($12,$11) # mul_add_c2(a[0],b[7],c2,c3,c1); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 sw $2,6*4($4) mflo ($24,$12,$11) mfhi ($25,$12,$11) addu $3,$24 sltu $1,$3,$24 multu ($13,$10) # forward multiplication addu $3,$24 addu $1,$25 sltu $24,$3,$24 addu $7,$1 addu $25,$24 sltu $2,$7,$1 addu $7,$25 sltu $25,$7,$25 addu $2,$25 mflo ($24,$13,$10) mfhi ($25,$13,$10) addu $3,$24 sltu $1,$3,$24 multu ($14,$9) # forward multiplication addu $3,$24 addu $1,$25 sltu $24,$3,$24 addu $7,$1 addu $25,$24 sltu $1,$7,$1 addu $7,$25 addu $2,$1 sltu $25,$7,$25 addu $2,$25 mflo ($24,$14,$9) mfhi ($25,$14,$9) addu $3,$24 sltu $1,$3,$24 multu ($15,$8) # forward multiplication addu $3,$24 addu $1,$25 sltu $24,$3,$24 addu $7,$1 addu $25,$24 sltu $1,$7,$1 addu $7,$25 addu $2,$1 sltu $25,$7,$25 addu $2,$25 mflo ($24,$15,$8) mfhi ($25,$15,$8) addu $3,$24 sltu $1,$3,$24 multu ($11,$13) # forward multiplication addu $3,$24 addu $1,$25 sltu $24,$3,$24 addu $7,$1 addu $25,$24 sltu $1,$7,$1 addu $7,$25 addu $2,$1 sltu $25,$7,$25 addu $2,$25 mflo ($24,$11,$13) mfhi ($25,$11,$13) sw $3,7*4($4) addu $7,$24 sltu $1,$7,$24 multu ($10,$14) # forward multiplication addu $7,$24 addu $1,$25 sltu $24,$7,$24 addu $2,$1 addu $25,$24 sltu $3,$2,$1 addu $2,$25 sltu $25,$2,$25 addu $3,$25 mflo ($24,$10,$14) mfhi ($25,$10,$14) addu $7,$24 sltu $1,$7,$24 multu ($9,$15) # forward multiplication addu $7,$24 addu $1,$25 sltu $24,$7,$24 addu $2,$1 addu $25,$24 sltu $1,$2,$1 addu $2,$25 addu $3,$1 sltu $25,$2,$25 addu $3,$25 mflo ($24,$9,$15) mfhi ($25,$9,$15) addu $7,$24 sltu $1,$7,$24 multu ($8,$8) # forward multiplication addu $7,$24 addu $1,$25 sltu $24,$7,$24 addu $2,$1 addu $25,$24 sltu $1,$2,$1 addu $2,$25 addu $3,$1 sltu $25,$2,$25 addu $3,$25 mflo ($24,$8,$8) mfhi ($25,$8,$8) addu $7,$24 sltu $1,$7,$24 multu ($14,$11) # mul_add_c2(a[2],b[7],c1,c2,c3); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 sw $7,8*4($4) mflo ($24,$14,$11) mfhi ($25,$14,$11) addu $2,$24 sltu $1,$2,$24 multu ($15,$10) # forward multiplication addu $2,$24 addu $1,$25 sltu $24,$2,$24 addu $3,$1 addu $25,$24 sltu $7,$3,$1 addu $3,$25 sltu $25,$3,$25 addu $7,$25 mflo ($24,$15,$10) mfhi ($25,$15,$10) addu $2,$24 sltu $1,$2,$24 multu ($8,$9) # forward multiplication addu $2,$24 addu $1,$25 sltu $24,$2,$24 addu $3,$1 addu $25,$24 sltu $1,$3,$1 addu $3,$25 addu $7,$1 sltu $25,$3,$25 addu $7,$25 mflo ($24,$8,$9) mfhi ($25,$8,$9) addu $2,$24 sltu $1,$2,$24 multu ($11,$15) # forward multiplication addu $2,$24 addu $1,$25 sltu $24,$2,$24 addu $3,$1 addu $25,$24 sltu $1,$3,$1 addu $3,$25 addu $7,$1 sltu $25,$3,$25 addu $7,$25 mflo ($24,$11,$15) mfhi ($25,$11,$15) sw $2,9*4($4) addu $3,$24 sltu $1,$3,$24 multu ($10,$8) # forward multiplication addu $3,$24 addu $1,$25 sltu $24,$3,$24 addu $7,$1 addu $25,$24 sltu $2,$7,$1 addu $7,$25 sltu $25,$7,$25 addu $2,$25 mflo ($24,$10,$8) mfhi ($25,$10,$8) addu $3,$24 sltu $1,$3,$24 multu ($9,$9) # forward multiplication addu $3,$24 addu $1,$25 sltu $24,$3,$24 addu $7,$1 addu $25,$24 sltu $1,$7,$1 addu $7,$25 addu $2,$1 sltu $25,$7,$25 addu $2,$25 mflo ($24,$9,$9) mfhi ($25,$9,$9) addu $3,$24 sltu $1,$3,$24 multu ($8,$11) # mul_add_c2(a[4],b[7],c3,c1,c2); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 sw $3,10*4($4) mflo ($24,$8,$11) mfhi ($25,$8,$11) addu $7,$24 sltu $1,$7,$24 multu ($9,$10) # forward multiplication addu $7,$24 addu $1,$25 sltu $24,$7,$24 addu $2,$1 addu $25,$24 sltu $3,$2,$1 addu $2,$25 sltu $25,$2,$25 addu $3,$25 mflo ($24,$9,$10) mfhi ($25,$9,$10) addu $7,$24 sltu $1,$7,$24 multu ($11,$9) # forward multiplication addu $7,$24 addu $1,$25 sltu $24,$7,$24 addu $2,$1 addu $25,$24 sltu $1,$2,$1 addu $2,$25 addu $3,$1 sltu $25,$2,$25 addu $3,$25 mflo ($24,$11,$9) mfhi ($25,$11,$9) sw $7,11*4($4) addu $2,$24 sltu $1,$2,$24 multu ($10,$10) # forward multiplication addu $2,$24 addu $1,$25 sltu $24,$2,$24 addu $3,$1 addu $25,$24 sltu $7,$3,$1 addu $3,$25 sltu $25,$3,$25 addu $7,$25 mflo ($24,$10,$10) mfhi ($25,$10,$10) addu $2,$24 sltu $1,$2,$24 multu ($10,$11) # mul_add_c2(a[6],b[7],c2,c3,c1); addu $25,$1 addu $3,$25 sltu $1,$3,$25 addu $7,$1 sw $2,12*4($4) mflo ($24,$10,$11) mfhi ($25,$10,$11) addu $3,$24 sltu $1,$3,$24 multu ($11,$11) # forward multiplication addu $3,$24 addu $1,$25 sltu $24,$3,$24 addu $7,$1 addu $25,$24 sltu $2,$7,$1 addu $7,$25 sltu $25,$7,$25 addu $2,$25 mflo ($24,$11,$11) mfhi ($25,$11,$11) sw $3,13*4($4) addu $7,$24 sltu $1,$7,$24 addu $25,$1 addu $2,$25 sw $7,14*4($4) sw $2,15*4($4) .set noreorder jr $31 nop .end bn_sqr_comba8 .align 5 .globl bn_sqr_comba4 .ent bn_sqr_comba4 bn_sqr_comba4: .set reorder lw $12,0($5) lw $13,4($5) multu ($12,$12) # mul_add_c(a[0],b[0],c1,c2,c3); lw $14,2*4($5) lw $15,3*4($5) mflo ($2,$12,$12) mfhi ($3,$12,$12) sw $2,0($4) multu ($12,$13) # mul_add_c2(a[0],b[1],c2,c3,c1); mflo ($24,$12,$13) mfhi ($25,$12,$13) slt $2,$25,$0 sll $25,1 multu ($14,$12) # mul_add_c2(a[2],b[0],c3,c1,c2); slt $6,$24,$0 addu $25,$6 sll $24,1 addu $3,$24 sltu $1,$3,$24 addu $7,$25,$1 sw $3,4($4) sltu $1,$7,$25 addu $2,$1 mflo ($24,$14,$12) mfhi ($25,$14,$12) addu $7,$24 sltu $1,$7,$24 multu ($13,$13) # forward multiplication addu $7,$24 addu $1,$25 sltu $24,$7,$24 addu $2,$1 addu $25,$24 sltu $3,$2,$1 addu $2,$25 sltu $25,$2,$25 addu $3,$25 mflo ($24,$13,$13) mfhi ($25,$13,$13) addu $7,$24 sltu $1,$7,$24 multu ($12,$15) # mul_add_c2(a[0],b[3],c1,c2,c3); addu $25,$1 addu $2,$25 sltu $1,$2,$25 addu $3,$1 sw $7,2*4($4) mflo ($24,$12,$15) mfhi ($25,$12,$15) addu $2,$24 sltu $1,$2,$24 multu ($13,$14) # forward multiplication addu $2,$24 addu $1,$25 sltu $24,$2,$24 addu $3,$1 addu $25,$24 sltu $7,$3,$1 addu $3,$25 sltu $25,$3,$25 addu $7,$25 mflo ($24,$13,$14) mfhi ($25,$13,$14) addu $2,$24 sltu $1,$2,$24 multu ($15,$13) # forward multiplication addu $2,$24 addu $1,$25 sltu $24,$2,$24 addu $3,$1 addu $25,$24 sltu $1,$3,$1 addu $3,$25 addu $7,$1 sltu $25,$3,$25 addu $7,$25 mflo ($24,$15,$13) mfhi ($25,$15,$13) sw $2,3*4($4) addu $3,$24 sltu $1,$3,$24 multu ($14,$14) # forward multiplication addu $3,$24 addu $1,$25 sltu $24,$3,$24 addu $7,$1 addu $25,$24 sltu $2,$7,$1 addu $7,$25 sltu $25,$7,$25 addu $2,$25 mflo ($24,$14,$14) mfhi ($25,$14,$14) addu $3,$24 sltu $1,$3,$24 multu ($14,$15) # mul_add_c2(a[2],b[3],c3,c1,c2); addu $25,$1 addu $7,$25 sltu $1,$7,$25 addu $2,$1 sw $3,4*4($4) mflo ($24,$14,$15) mfhi ($25,$14,$15) addu $7,$24 sltu $1,$7,$24 multu ($15,$15) # forward multiplication addu $7,$24 addu $1,$25 sltu $24,$7,$24 addu $2,$1 addu $25,$24 sltu $3,$2,$1 addu $2,$25 sltu $25,$2,$25 addu $3,$25 mflo ($24,$15,$15) mfhi ($25,$15,$15) sw $7,5*4($4) addu $2,$24 sltu $1,$2,$24 addu $25,$1 addu $3,$25 sw $2,6*4($4) sw $3,7*4($4) .set noreorder jr $31 nop .end bn_sqr_comba4