dh/sidh/internal/p751/arith_amd64.s

// +build amd64,!noasm

#include "textflag.h"

// p751 + 1
#define P751P1_5   $0xEEB0000000000000
#define P751P1_6   $0xE3EC968549F878A8
#define P751P1_7   $0xDA959B1A13F7CC76
#define P751P1_8   $0x084E9867D6EBE876
#define P751P1_9   $0x8562B5045CB25748
#define P751P1_10  $0x0E12909F97BADC66
#define P751P1_11  $0x00006FE5D541F71C

#define P751_0     $0xFFFFFFFFFFFFFFFF
#define P751_5     $0xEEAFFFFFFFFFFFFF
#define P751_6     $0xE3EC968549F878A8
#define P751_7     $0xDA959B1A13F7CC76
#define P751_8     $0x084E9867D6EBE876
#define P751_9     $0x8562B5045CB25748
#define P751_10    $0x0E12909F97BADC66
#define P751_11    $0x00006FE5D541F71C

#define P751X2_0   $0xFFFFFFFFFFFFFFFE
#define P751X2_1   $0xFFFFFFFFFFFFFFFF
#define P751X2_5   $0xDD5FFFFFFFFFFFFF
#define P751X2_6   $0xC7D92D0A93F0F151
#define P751X2_7   $0xB52B363427EF98ED
#define P751X2_8   $0x109D30CFADD7D0ED
#define P751X2_9   $0x0AC56A08B964AE90
#define P751X2_10  $0x1C25213F2F75B8CD
#define P751X2_11  $0x0000DFCBAA83EE38

// The MSR code uses these registers for parameter passing.  Keep using
// them to avoid significant code changes.  This means that when the Go
// assembler does something strange, we can diff the machine code
// against a different assembler to find out what Go did.

#define REG_P1 DI
#define REG_P2 SI
#define REG_P3 DX

TEXT ·modP751(SB), NOSPLIT, $0-8
	MOVQ	x+0(FP), REG_P1

	// Zero AX for later use:
	XORQ	AX, AX

	// Load p into registers:
	MOVQ	P751_0, R8
	// P751_{1,2,3,4} = P751_0, so reuse R8
	MOVQ	P751_5, R9
	MOVQ	P751_6, R10
	MOVQ	P751_7, R11
	MOVQ	P751_8, R12
	MOVQ	P751_9, R13
	MOVQ	P751_10, R14
	MOVQ	P751_11, R15

	// Set x <- x - p
	SUBQ	R8, (REG_P1)
	SBBQ	R8, (8)(REG_P1)
	SBBQ	R8, (16)(REG_P1)
	SBBQ	R8, (24)(REG_P1)
	SBBQ	R8, (32)(REG_P1)
	SBBQ	R9, (40)(REG_P1)
	SBBQ	R10, (48)(REG_P1)
	SBBQ	R11, (56)(REG_P1)
	SBBQ	R12, (64)(REG_P1)
	SBBQ	R13, (72)(REG_P1)
	SBBQ	R14, (80)(REG_P1)
	SBBQ    R15, (88)(REG_P1)

	// Save carry flag indicating x-p < 0 as a mask in AX
	SBBQ	$0, AX

	// Conditionally add p to x if x-p < 0
	ANDQ	AX, R8
	ANDQ	AX, R9
	ANDQ	AX, R10
	ANDQ	AX, R11
	ANDQ	AX, R12
	ANDQ	AX, R13
	ANDQ	AX, R14
	ANDQ	AX, R15

	ADDQ	R8, (REG_P1)
	ADCQ	R8, (8)(REG_P1)
	ADCQ	R8, (16)(REG_P1)
	ADCQ	R8, (24)(REG_P1)
	ADCQ	R8, (32)(REG_P1)
	ADCQ	R9, (40)(REG_P1)
	ADCQ	R10, (48)(REG_P1)
	ADCQ	R11, (56)(REG_P1)
	ADCQ	R12, (64)(REG_P1)
	ADCQ	R13, (72)(REG_P1)
	ADCQ	R14, (80)(REG_P1)
	ADCQ    R15, (88)(REG_P1)

	RET

TEXT ·cswapP751(SB), NOSPLIT, $0-17

	MOVQ	x+0(FP), REG_P1
	MOVQ	y+8(FP), REG_P2
	MOVB	choice+16(FP), AL	// AL = 0 or 1
	MOVBLZX	AL, AX			// AX = 0 or 1
	NEGQ	AX			// RAX = 0x00..00 or 0xff..ff

	MOVQ	(0*8)(REG_P1), BX	// BX = x[0]
	MOVQ 	(0*8)(REG_P2), CX	// CX = y[0]
	MOVQ	CX, DX			// DX = y[0]
	XORQ	BX, DX			// DX = y[0] ^ x[0]
	ANDQ	AX, DX			// DX = (y[0] ^ x[0]) & mask
	XORQ	DX, BX			// BX = (y[0] ^ x[0]) & mask) ^ x[0] = x[0] or y[0]
	XORQ	DX, CX			// CX = (y[0] ^ x[0]) & mask) ^ y[0] = y[0] or x[0]
	MOVQ	BX, (0*8)(REG_P1)
	MOVQ	CX, (0*8)(REG_P2)

	MOVQ	(1*8)(REG_P1), BX
	MOVQ 	(1*8)(REG_P2), CX
	MOVQ	CX, DX
	XORQ	BX, DX
	ANDQ	AX, DX
	XORQ	DX, BX
	XORQ	DX, CX
	MOVQ	BX, (1*8)(REG_P1)
	MOVQ	CX, (1*8)(REG_P2)

	MOVQ	(2*8)(REG_P1), BX
	MOVQ 	(2*8)(REG_P2), CX
	MOVQ	CX, DX
	XORQ	BX, DX
	ANDQ	AX, DX
	XORQ	DX, BX
	XORQ	DX, CX
	MOVQ	BX, (2*8)(REG_P1)
	MOVQ	CX, (2*8)(REG_P2)

	MOVQ	(3*8)(REG_P1), BX
	MOVQ 	(3*8)(REG_P2), CX
	MOVQ	CX, DX
	XORQ	BX, DX
	ANDQ	AX, DX
	XORQ	DX, BX
	XORQ	DX, CX
	MOVQ	BX, (3*8)(REG_P1)
	MOVQ	CX, (3*8)(REG_P2)

	MOVQ	(4*8)(REG_P1), BX
	MOVQ 	(4*8)(REG_P2), CX
	MOVQ	CX, DX
	XORQ	BX, DX
	ANDQ	AX, DX
	XORQ	DX, BX
	XORQ	DX, CX
	MOVQ	BX, (4*8)(REG_P1)
	MOVQ	CX, (4*8)(REG_P2)

	MOVQ	(5*8)(REG_P1), BX
	MOVQ 	(5*8)(REG_P2), CX
	MOVQ	CX, DX
	XORQ	BX, DX
	ANDQ	AX, DX
	XORQ	DX, BX
	XORQ	DX, CX
	MOVQ	BX, (5*8)(REG_P1)
	MOVQ	CX, (5*8)(REG_P2)

	MOVQ	(6*8)(REG_P1), BX
	MOVQ 	(6*8)(REG_P2), CX
	MOVQ	CX, DX
	XORQ	BX, DX
	ANDQ	AX, DX
	XORQ	DX, BX
	XORQ	DX, CX
	MOVQ	BX, (6*8)(REG_P1)
	MOVQ	CX, (6*8)(REG_P2)

	MOVQ	(7*8)(REG_P1), BX
	MOVQ 	(7*8)(REG_P2), CX
	MOVQ	CX, DX
	XORQ	BX, DX
	ANDQ	AX, DX
	XORQ	DX, BX
	XORQ	DX, CX
	MOVQ	BX, (7*8)(REG_P1)
	MOVQ	CX, (7*8)(REG_P2)

	MOVQ	(8*8)(REG_P1), BX
	MOVQ 	(8*8)(REG_P2), CX
	MOVQ	CX, DX
	XORQ	BX, DX
	ANDQ	AX, DX
	XORQ	DX, BX
	XORQ	DX, CX
	MOVQ	BX, (8*8)(REG_P1)
	MOVQ	CX, (8*8)(REG_P2)

	MOVQ	(9*8)(REG_P1), BX
	MOVQ 	(9*8)(REG_P2), CX
	MOVQ	CX, DX
	XORQ	BX, DX
	ANDQ	AX, DX
	XORQ	DX, BX
	XORQ	DX, CX
	MOVQ	BX, (9*8)(REG_P1)
	MOVQ	CX, (9*8)(REG_P2)

	MOVQ	(10*8)(REG_P1), BX
	MOVQ 	(10*8)(REG_P2), CX
	MOVQ	CX, DX
	XORQ	BX, DX
	ANDQ	AX, DX
	XORQ	DX, BX
	XORQ	DX, CX
	MOVQ	BX, (10*8)(REG_P1)
	MOVQ	CX, (10*8)(REG_P2)

	MOVQ	(11*8)(REG_P1), BX
	MOVQ 	(11*8)(REG_P2), CX
	MOVQ	CX, DX
	XORQ	BX, DX
	ANDQ	AX, DX
	XORQ	DX, BX
	XORQ	DX, CX
	MOVQ	BX, (11*8)(REG_P1)
	MOVQ	CX, (11*8)(REG_P2)

	RET

TEXT ·cmovP751(SB),NOSPLIT,$0-17

    MOVQ    x+0(FP), DI
    MOVQ    y+8(FP), SI
    MOVB    choice+16(FP), AL   // AL = 0 or 1
    MOVBLZX AL, AX  // AX = 0 or 1
    NEGQ    AX          // AX = 0x00..00 or 0xff..ff
#ifndef CMOV_BLOCK
#define CMOV_BLOCK(idx)    \
    MOVQ    (idx*8)(DI), BX \ // BX = x[idx]
    MOVQ    (idx*8)(SI), DX \ // DX = y[idx]
    XORQ    BX, DX          \ // DX = y[idx] ^ x[idx]
    ANDQ    AX, DX          \ // DX = (y[idx] ^ x[idx]) & mask
    XORQ    DX, BX          \ // BX = (y[idx] ^ x[idx]) & mask) ^ x[idx] = x[idx] or y[idx]
    MOVQ    BX, (idx*8)(DI)
#endif
    CMOV_BLOCK(0)
    CMOV_BLOCK(1)
    CMOV_BLOCK(2)
    CMOV_BLOCK(3)
    CMOV_BLOCK(4)
    CMOV_BLOCK(5)
    CMOV_BLOCK(6)
    CMOV_BLOCK(7)
    CMOV_BLOCK(8)
    CMOV_BLOCK(9)
    CMOV_BLOCK(10)
    CMOV_BLOCK(11)
#ifdef CMOV_BLOCK
#undef CMOV_BLOCK
#endif
    RET

TEXT ·addP751(SB), NOSPLIT, $0-24

	MOVQ	z+0(FP), REG_P3
	MOVQ	x+8(FP), REG_P1
	MOVQ	y+16(FP), REG_P2

	MOVQ	(REG_P1), R8
	MOVQ	(8)(REG_P1), R9
	MOVQ	(16)(REG_P1), R10
	MOVQ	(24)(REG_P1), R11
	MOVQ	(32)(REG_P1), R12
	MOVQ	(40)(REG_P1), R13
	MOVQ	(48)(REG_P1), R14
	MOVQ	(56)(REG_P1), R15
	MOVQ	(64)(REG_P1), CX
	ADDQ	(REG_P2), R8
	ADCQ	(8)(REG_P2), R9
	ADCQ	(16)(REG_P2), R10
	ADCQ	(24)(REG_P2), R11
	ADCQ	(32)(REG_P2), R12
	ADCQ	(40)(REG_P2), R13
	ADCQ	(48)(REG_P2), R14
	ADCQ	(56)(REG_P2), R15
	ADCQ	(64)(REG_P2), CX
	MOVQ	(72)(REG_P1), AX
	ADCQ	(72)(REG_P2), AX
	MOVQ	AX, (72)(REG_P3)
	MOVQ	(80)(REG_P1), AX
	ADCQ	(80)(REG_P2), AX
	MOVQ	AX, (80)(REG_P3)
	MOVQ	(88)(REG_P1), AX
	ADCQ	(88)(REG_P2), AX
	MOVQ	AX, (88)(REG_P3)

	MOVQ	P751X2_0, AX
	SUBQ	AX, R8
	MOVQ	P751X2_1, AX
	SBBQ	AX, R9
	SBBQ	AX, R10
	SBBQ	AX, R11
	SBBQ	AX, R12
	MOVQ	P751X2_5, AX
	SBBQ	AX, R13
	MOVQ	P751X2_6, AX
	SBBQ	AX, R14
	MOVQ	P751X2_7, AX
	SBBQ	AX, R15
	MOVQ	P751X2_8, AX
	SBBQ	AX, CX
	MOVQ	R8, (REG_P3)
	MOVQ	R9, (8)(REG_P3)
	MOVQ	R10, (16)(REG_P3)
	MOVQ	R11, (24)(REG_P3)
	MOVQ	R12, (32)(REG_P3)
	MOVQ	R13, (40)(REG_P3)
	MOVQ	R14, (48)(REG_P3)
	MOVQ	R15, (56)(REG_P3)
	MOVQ	CX, (64)(REG_P3)
	MOVQ	(72)(REG_P3), R8
	MOVQ	(80)(REG_P3), R9
	MOVQ	(88)(REG_P3), R10
	MOVQ	P751X2_9, AX
	SBBQ	AX, R8
	MOVQ	P751X2_10, AX
	SBBQ	AX, R9
	MOVQ	P751X2_11, AX
	SBBQ	AX, R10
	MOVQ	R8, (72)(REG_P3)
	MOVQ	R9, (80)(REG_P3)
	MOVQ	R10, (88)(REG_P3)
	MOVQ	$0, AX
	SBBQ	$0, AX

	MOVQ	P751X2_0, SI
	ANDQ	AX, SI
	MOVQ	P751X2_1, R8
	ANDQ	AX, R8
	MOVQ	P751X2_5, R9
	ANDQ	AX, R9
	MOVQ	P751X2_6, R10
	ANDQ	AX, R10
	MOVQ	P751X2_7, R11
	ANDQ	AX, R11
	MOVQ	P751X2_8, R12
	ANDQ	AX, R12
	MOVQ	P751X2_9, R13
	ANDQ	AX, R13
	MOVQ	P751X2_10, R14
	ANDQ	AX, R14
	MOVQ	P751X2_11, R15
	ANDQ	AX, R15

	MOVQ	(REG_P3), AX
	ADDQ	SI, AX
	MOVQ	AX, (REG_P3)
	MOVQ	(8)(REG_P3), AX
	ADCQ	R8, AX
	MOVQ	AX, (8)(REG_P3)
	MOVQ	(16)(REG_P3), AX
	ADCQ	R8, AX
	MOVQ	AX, (16)(REG_P3)
	MOVQ	(24)(REG_P3), AX
	ADCQ	R8, AX
	MOVQ	AX, (24)(REG_P3)
	MOVQ	(32)(REG_P3), AX
	ADCQ	R8, AX
	MOVQ	AX, (32)(REG_P3)
	MOVQ	(40)(REG_P3), AX
	ADCQ	R9, AX
	MOVQ	AX, (40)(REG_P3)
	MOVQ	(48)(REG_P3), AX
	ADCQ	R10, AX
	MOVQ	AX, (48)(REG_P3)
	MOVQ	(56)(REG_P3), AX
	ADCQ	R11, AX
	MOVQ	AX, (56)(REG_P3)
	MOVQ	(64)(REG_P3), AX
	ADCQ	R12, AX
	MOVQ	AX, (64)(REG_P3)
	MOVQ	(72)(REG_P3), AX
	ADCQ	R13, AX
	MOVQ	AX, (72)(REG_P3)
	MOVQ	(80)(REG_P3), AX
	ADCQ	R14, AX
	MOVQ	AX, (80)(REG_P3)
	MOVQ	(88)(REG_P3), AX
	ADCQ	R15, AX
	MOVQ	AX, (88)(REG_P3)

	RET

TEXT ·subP751(SB), NOSPLIT, $0-24

	MOVQ	z+0(FP),  REG_P3
	MOVQ	x+8(FP),  REG_P1
	MOVQ	y+16(FP),  REG_P2

	MOVQ	(REG_P1), R8
	MOVQ	(8)(REG_P1), R9
	MOVQ	(16)(REG_P1), R10
	MOVQ	(24)(REG_P1), R11
	MOVQ	(32)(REG_P1), R12
	MOVQ	(40)(REG_P1), R13
	MOVQ	(48)(REG_P1), R14
	MOVQ	(56)(REG_P1), R15
	MOVQ	(64)(REG_P1), CX
	SUBQ	(REG_P2), R8
	SBBQ	(8)(REG_P2), R9
	SBBQ	(16)(REG_P2), R10
	SBBQ	(24)(REG_P2), R11
	SBBQ	(32)(REG_P2), R12
	SBBQ	(40)(REG_P2), R13
	SBBQ	(48)(REG_P2), R14
	SBBQ	(56)(REG_P2), R15
	SBBQ	(64)(REG_P2), CX
	MOVQ	R8, (REG_P3)
	MOVQ	R9, (8)(REG_P3)
	MOVQ	R10, (16)(REG_P3)
	MOVQ	R11, (24)(REG_P3)
	MOVQ	R12, (32)(REG_P3)
	MOVQ	R13, (40)(REG_P3)
	MOVQ	R14, (48)(REG_P3)
	MOVQ	R15, (56)(REG_P3)
	MOVQ	CX, (64)(REG_P3)
	MOVQ	(72)(REG_P1), AX
	SBBQ	(72)(REG_P2), AX
	MOVQ	AX, (72)(REG_P3)
	MOVQ	(80)(REG_P1), AX
	SBBQ	(80)(REG_P2), AX
	MOVQ	AX, (80)(REG_P3)
	MOVQ	(88)(REG_P1), AX
	SBBQ	(88)(REG_P2), AX
	MOVQ	AX, (88)(REG_P3)
	MOVQ	$0, AX
	SBBQ	$0, AX

	MOVQ	P751X2_0, SI
	ANDQ	AX, SI
	MOVQ	P751X2_1, R8
	ANDQ	AX, R8
	MOVQ	P751X2_5, R9
	ANDQ	AX, R9
	MOVQ	P751X2_6, R10
	ANDQ	AX, R10
	MOVQ	P751X2_7, R11
	ANDQ	AX, R11
	MOVQ	P751X2_8, R12
	ANDQ	AX, R12
	MOVQ	P751X2_9, R13
	ANDQ	AX, R13
	MOVQ	P751X2_10, R14
	ANDQ	AX, R14
	MOVQ	P751X2_11, R15
	ANDQ	AX, R15

	MOVQ	(REG_P3), AX
	ADDQ	SI, AX
	MOVQ	AX, (REG_P3)
	MOVQ	(8)(REG_P3), AX
	ADCQ	R8, AX
	MOVQ	AX, (8)(REG_P3)
	MOVQ	(16)(REG_P3), AX
	ADCQ	R8, AX
	MOVQ	AX, (16)(REG_P3)
	MOVQ	(24)(REG_P3), AX
	ADCQ	R8, AX
	MOVQ	AX, (24)(REG_P3)
	MOVQ	(32)(REG_P3), AX
	ADCQ	R8, AX
	MOVQ	AX, (32)(REG_P3)
	MOVQ	(40)(REG_P3), AX
	ADCQ	R9, AX
	MOVQ	AX, (40)(REG_P3)
	MOVQ	(48)(REG_P3), AX
	ADCQ	R10, AX
	MOVQ	AX, (48)(REG_P3)
	MOVQ	(56)(REG_P3), AX
	ADCQ	R11, AX
	MOVQ	AX, (56)(REG_P3)
	MOVQ	(64)(REG_P3), AX
	ADCQ	R12, AX
	MOVQ	AX, (64)(REG_P3)
	MOVQ	(72)(REG_P3), AX
	ADCQ	R13, AX
	MOVQ	AX, (72)(REG_P3)
	MOVQ	(80)(REG_P3), AX
	ADCQ	R14, AX
	MOVQ	AX, (80)(REG_P3)
	MOVQ	(88)(REG_P3), AX
	ADCQ	R15, AX
	MOVQ	AX, (88)(REG_P3)

	RET

TEXT ·mulP751(SB), $96-24

	// Here we store the destination in CX instead of in REG_P3 because the
	// multiplication instructions use DX as an implicit destination
	// operand: MULQ $REG sets DX:AX <-- AX * $REG.

	MOVQ	z+0(FP), CX
	MOVQ	x+8(FP), REG_P1
	MOVQ	y+16(FP), REG_P2

	XORQ	AX, AX
	MOVQ	(48)(REG_P1), R8
	MOVQ	(56)(REG_P1), R9
	MOVQ	(64)(REG_P1), R10
	MOVQ	(72)(REG_P1), R11
	MOVQ	(80)(REG_P1), R12
	MOVQ	(88)(REG_P1), R13
	ADDQ	(REG_P1), R8
	ADCQ	(8)(REG_P1), R9
	ADCQ	(16)(REG_P1), R10
	ADCQ	(24)(REG_P1), R11
	ADCQ	(32)(REG_P1), R12
	ADCQ	(40)(REG_P1), R13
	MOVQ	R8, (CX)
	MOVQ	R9, (8)(CX)
	MOVQ	R10, (16)(CX)
	MOVQ	R11, (24)(CX)
	MOVQ	R12, (32)(CX)
	MOVQ	R13, (40)(CX)
	SBBQ	$0, AX

	XORQ	DX, DX
	MOVQ	(48)(REG_P2), R8
	MOVQ	(56)(REG_P2), R9
	MOVQ	(64)(REG_P2), R10
	MOVQ	(72)(REG_P2), R11
	MOVQ	(80)(REG_P2), R12
	MOVQ	(88)(REG_P2), R13
	ADDQ	(REG_P2), R8
	ADCQ	(8)(REG_P2), R9
	ADCQ	(16)(REG_P2), R10
	ADCQ	(24)(REG_P2), R11
	ADCQ	(32)(REG_P2), R12
	ADCQ	(40)(REG_P2), R13
	MOVQ	R8, (48)(CX)
	MOVQ	R9, (56)(CX)
	MOVQ	R10, (64)(CX)
	MOVQ	R11, (72)(CX)
	MOVQ	R12, (80)(CX)
	MOVQ	R13, (88)(CX)
	SBBQ	$0, DX
	MOVQ	AX, (80)(SP)
	MOVQ	DX, (88)(SP)

	// (SP[0-8],R10,R8,R9) <- (AH+AL)*(BH+BL)

	MOVQ	(CX), R11
	MOVQ	R8, AX
	MULQ	R11
	MOVQ	AX, (SP)		// c0
	MOVQ	DX, R14

	XORQ	R15, R15
	MOVQ	R9, AX
	MULQ	R11
	XORQ	R9, R9
	ADDQ	AX, R14
	ADCQ	DX, R9

	MOVQ	(8)(CX), R12
	MOVQ	R8, AX
	MULQ	R12
	ADDQ	AX, R14
	MOVQ	R14, (8)(SP)		// c1
	ADCQ	DX, R9
	ADCQ	$0, R15

	XORQ	R8, R8
	MOVQ	R10, AX
	MULQ	R11
	ADDQ	AX, R9
	MOVQ	(48)(CX), R13
	ADCQ	DX, R15
	ADCQ	$0, R8

	MOVQ	(16)(CX), AX
	MULQ	R13
	ADDQ	AX, R9
	ADCQ	DX, R15
	MOVQ	(56)(CX), AX
	ADCQ	$0, R8

	MULQ	R12
	ADDQ	AX, R9
	MOVQ	R9, (16)(SP)		// c2
	ADCQ	DX, R15
	ADCQ	$0, R8

	XORQ	R9, R9
	MOVQ	(72)(CX), AX
	MULQ	R11
	ADDQ	AX, R15
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(24)(CX), AX
	MULQ	R13
	ADDQ	AX, R15
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	R10, AX
	MULQ	R12
	ADDQ	AX, R15
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(16)(CX), R14
	MOVQ	(56)(CX), AX
	MULQ	R14
	ADDQ	AX, R15
	MOVQ	R15, (24)(SP)		// c3
	ADCQ	DX, R8
	ADCQ	$0, R9

	XORQ	R10, R10
	MOVQ	(80)(CX), AX
	MULQ	R11
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(64)(CX), AX
	MULQ	R14
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(48)(CX), R15
	MOVQ	(32)(CX), AX
	MULQ	R15
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(72)(CX), AX
	MULQ	R12
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(24)(CX), R13
	MOVQ	(56)(CX), AX
	MULQ	R13
	ADDQ	AX, R8
	MOVQ	R8, (32)(SP)		// c4
	ADCQ	DX, R9
	ADCQ	$0, R10

	XORQ	R8, R8
	MOVQ	(88)(CX), AX
	MULQ	R11
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(64)(CX), AX
	MULQ	R13
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(72)(CX), AX
	MULQ	R14
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(40)(CX), AX
	MULQ	R15
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(80)(CX), AX
	MULQ	R12
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(32)(CX), R15
	MOVQ	(56)(CX), AX
	MULQ	R15
	ADDQ	AX, R9
	MOVQ	R9, (40)(SP)		// c5
	ADCQ	DX, R10
	ADCQ	$0, R8

	XORQ	R9, R9
	MOVQ	(64)(CX), AX
	MULQ	R15
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(88)(CX), AX
	MULQ	R12
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(80)(CX), AX
	MULQ	R14
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(40)(CX), R11
	MOVQ	(56)(CX), AX
	MULQ	R11
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(72)(CX), AX
	MULQ	R13
	ADDQ	AX, R10
	MOVQ	R10, (48)(SP)		// c6
	ADCQ	DX, R8
	ADCQ	$0, R9

	XORQ	R10, R10
	MOVQ	(88)(CX), AX
	MULQ	R14
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(64)(CX), AX
	MULQ	R11
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(80)(CX), AX
	MULQ	R13
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(72)(CX), AX
	MULQ	R15
	ADDQ	AX, R8
	MOVQ	R8, (56)(SP)		// c7
	ADCQ	DX, R9
	ADCQ	$0, R10

	XORQ	R8, R8
	MOVQ	(72)(CX), AX
	MULQ	R11
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(80)(CX), AX
	MULQ	R15
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(88)(CX), AX
	MULQ	R13
	ADDQ	AX, R9
	MOVQ	R9, (64)(SP)		// c8
	ADCQ	DX, R10
	ADCQ	$0, R8

	XORQ	R9, R9
	MOVQ	(88)(CX), AX
	MULQ	R15
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(80)(CX), AX
	MULQ	R11
	ADDQ	AX, R10			// c9
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(88)(CX), AX
	MULQ	R11
	ADDQ	AX, R8			// c10
	ADCQ	DX, R9			// c11

	MOVQ	(88)(SP), AX
	MOVQ	(CX), DX
	ANDQ	AX, R12
	ANDQ	AX, R14
	ANDQ	AX, DX
	ANDQ	AX, R13
	ANDQ	AX, R15
	ANDQ	AX, R11
	MOVQ	(48)(SP), AX
	ADDQ	AX, DX
	MOVQ	(56)(SP), AX
	ADCQ	AX, R12
	MOVQ	(64)(SP), AX
	ADCQ	AX, R14
	ADCQ	R10, R13
	ADCQ	R8, R15
	ADCQ	R9, R11
	MOVQ	(80)(SP), AX
	MOVQ	DX, (48)(SP)
	MOVQ	R12, (56)(SP)
	MOVQ	R14, (64)(SP)
	MOVQ	R13, (72)(SP)
	MOVQ	R15, (80)(SP)
	MOVQ	R11, (88)(SP)

	MOVQ	(48)(CX), R8
	MOVQ	(56)(CX), R9
	MOVQ	(64)(CX), R10
	MOVQ	(72)(CX), R11
	MOVQ	(80)(CX), R12
	MOVQ	(88)(CX), R13
	ANDQ	AX, R8
	ANDQ	AX, R9
	ANDQ	AX, R10
	ANDQ	AX, R11
	ANDQ	AX, R12
	ANDQ	AX, R13
	MOVQ	(48)(SP), AX
	ADDQ	AX, R8
	MOVQ	(56)(SP), AX
	ADCQ	AX, R9
	MOVQ	(64)(SP), AX
	ADCQ	AX, R10
	MOVQ	(72)(SP), AX
	ADCQ	AX, R11
	MOVQ	(80)(SP), AX
	ADCQ	AX, R12
	MOVQ	(88)(SP), AX
	ADCQ	AX, R13
	MOVQ	R8, (48)(SP)
	MOVQ	R9, (56)(SP)
	MOVQ	R11, (72)(SP)

	// CX[0-11] <- AL*BL
	MOVQ	(REG_P1), R11
	MOVQ	(REG_P2), AX
	MULQ	R11
	XORQ	R9, R9
	MOVQ	AX, (CX)		// c0
	MOVQ	R10, (64)(SP)
	MOVQ	DX, R8

	MOVQ	(8)(REG_P2), AX
	MULQ	R11
	XORQ	R10, R10
	ADDQ	AX, R8
	MOVQ	R12, (80)(SP)
	ADCQ	DX, R9

	MOVQ	(8)(REG_P1), R12
	MOVQ	(REG_P2), AX
	MULQ	R12
	ADDQ	AX, R8
	MOVQ	R8, (8)(CX)		// c1
	ADCQ	DX, R9
	MOVQ	R13, (88)(SP)
	ADCQ	$0, R10

	XORQ	R8, R8
	MOVQ	(16)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(REG_P2), R13
	MOVQ	(16)(REG_P1), AX
	MULQ	R13
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(8)(REG_P2), AX
	MULQ	R12
	ADDQ	AX, R9
	MOVQ	R9, (16)(CX)		// c2
	ADCQ	DX, R10
	ADCQ	$0, R8

	XORQ	R9, R9
	MOVQ	(24)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(24)(REG_P1), AX
	MULQ	R13
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(16)(REG_P2), AX
	MULQ	R12
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(16)(REG_P1), R14
	MOVQ	(8)(REG_P2), AX
	MULQ	R14
	ADDQ	AX, R10
	MOVQ	R10, (24)(CX)		// c3
	ADCQ	DX, R8
	ADCQ	$0, R9

	XORQ	R10, R10
	MOVQ	(32)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(16)(REG_P2), AX
	MULQ	R14
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(32)(REG_P1), AX
	MULQ	R13
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(24)(REG_P2), AX
	MULQ	R12
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(24)(REG_P1), R13
	MOVQ	(8)(REG_P2), AX
	MULQ	R13
	ADDQ	AX, R8
	MOVQ	R8, (32)(CX)		// c4
	ADCQ	DX, R9
	ADCQ	$0, R10

	XORQ	R8, R8
	MOVQ	(40)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(16)(REG_P2), AX
	MULQ	R13
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(24)(REG_P2), AX
	MULQ	R14
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(40)(REG_P1), R11
	MOVQ	(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(32)(REG_P2), AX
	MULQ	R12
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(32)(REG_P1), R15
	MOVQ	(8)(REG_P2), AX
	MULQ	R15
	ADDQ	AX, R9
	MOVQ	R9, (40)(CX)		//c5
	ADCQ	DX, R10
	ADCQ	$0, R8

	XORQ	R9, R9
	MOVQ	(16)(REG_P2), AX
	MULQ	R15
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(40)(REG_P2), AX
	MULQ	R12
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(32)(REG_P2), AX
	MULQ	R14
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(8)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(24)(REG_P2), AX
	MULQ	R13
	ADDQ	AX, R10
	MOVQ	R10, (48)(CX)		// c6
	ADCQ	DX, R8
	ADCQ	$0, R9

	XORQ	R10, R10
	MOVQ	(40)(REG_P2), AX
	MULQ	R14
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(16)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(32)(REG_P2), AX
	MULQ	R13
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(24)(REG_P2), AX
	MULQ	R15
	ADDQ	AX, R8
	MOVQ	R8, (56)(CX)		// c7
	ADCQ	DX, R9
	ADCQ	$0, R10

	XORQ	R8, R8
	MOVQ	(24)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(32)(REG_P2), AX
	MULQ	R15
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(40)(REG_P2), AX
	MULQ	R13
	ADDQ	AX, R9
	MOVQ	R9, (64)(CX)		// c8
	ADCQ	DX, R10
	ADCQ	$0, R8

	XORQ	R9, R9
	MOVQ	(40)(REG_P2), AX
	MULQ	R15
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(32)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R10
	MOVQ	R10, (72)(CX)		// c9
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(40)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R8
	MOVQ	R8, (80)(CX)		// c10
	ADCQ	DX, R9
	MOVQ	R9, (88)(CX)		// c11

	// CX[12-23] <- AH*BH
	MOVQ	(48)(REG_P1), R11
	MOVQ	(48)(REG_P2), AX
	MULQ	R11
	XORQ	R9, R9
	MOVQ	AX, (96)(CX)		// c0
	MOVQ	DX, R8

	MOVQ	(56)(REG_P2), AX
	MULQ	R11
	XORQ	R10, R10
	ADDQ	AX, R8
	ADCQ	DX, R9

	MOVQ	(56)(REG_P1), R12
	MOVQ	(48)(REG_P2), AX
	MULQ	R12
	ADDQ	AX, R8
	MOVQ	R8, (104)(CX)		// c1
	ADCQ	DX, R9
	ADCQ	$0, R10

	XORQ	R8, R8
	MOVQ	(64)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(48)(REG_P2), R13
	MOVQ	(64)(REG_P1), AX
	MULQ	R13
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(56)(REG_P2), AX
	MULQ	R12
	ADDQ	AX, R9
	MOVQ	R9, (112)(CX)		// c2
	ADCQ	DX, R10
	ADCQ	$0, R8

	XORQ	R9, R9
	MOVQ	(72)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(72)(REG_P1), AX
	MULQ	R13
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(64)(REG_P2), AX
	MULQ	R12
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(64)(REG_P1), R14
	MOVQ	(56)(REG_P2), AX
	MULQ	R14
	ADDQ	AX, R10
	MOVQ	R10, (120)(CX)		// c3
	ADCQ	DX, R8
	ADCQ	$0, R9

	XORQ	R10, R10
	MOVQ	(80)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(64)(REG_P2), AX
	MULQ	R14
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(80)(REG_P1), R15
	MOVQ	R13, AX
	MULQ	R15
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(72)(REG_P2), AX
	MULQ	R12
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(72)(REG_P1), R13
	MOVQ	(56)(REG_P2), AX
	MULQ	R13
	ADDQ	AX, R8
	MOVQ	R8, (128)(CX)		// c4
	ADCQ	DX, R9
	ADCQ	$0, R10

	XORQ	R8, R8
	MOVQ	(88)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(64)(REG_P2), AX
	MULQ	R13
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(72)(REG_P2), AX
	MULQ	R14
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(88)(REG_P1), R11
	MOVQ	(48)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(80)(REG_P2), AX
	MULQ	R12
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(56)(REG_P2), AX
	MULQ	R15
	ADDQ	AX, R9
	MOVQ	R9, (136)(CX)		// c5
	ADCQ	DX, R10
	ADCQ	$0, R8

	XORQ	R9, R9
	MOVQ	(64)(REG_P2), AX
	MULQ	R15
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(88)(REG_P2), AX
	MULQ	R12
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(80)(REG_P2), AX
	MULQ	R14
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(56)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(72)(REG_P2), AX
	MULQ	R13
	ADDQ	AX, R10
	MOVQ	R10, (144)(CX)		// c6
	ADCQ	DX, R8
	ADCQ	$0, R9

	XORQ	R10, R10
	MOVQ	(88)(REG_P2), AX
	MULQ	R14
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(64)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(80)(REG_P2), AX
	MULQ	R13
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(72)(REG_P2), AX
	MULQ	R15
	ADDQ	AX, R8
	MOVQ	R8, (152)(CX)		// c7
	ADCQ	DX, R9
	ADCQ	$0, R10

	XORQ	R8, R8
	MOVQ	(72)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(80)(REG_P2), AX
	MULQ	R15
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(88)(REG_P2), AX
	MULQ	R13
	ADDQ	AX, R9
	MOVQ	R9, (160)(CX)		// c8
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(88)(REG_P2), AX
	MULQ	R15
	ADDQ	AX, R10
	ADCQ	DX, R8

	MOVQ	(80)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R10
	MOVQ	R10, (168)(CX)		// c9
	ADCQ	DX, R8

	MOVQ	(88)(REG_P2), AX
	MULQ	R11
	ADDQ	AX, R8
	MOVQ	R8, (176)(CX)		// c10
	ADCQ	$0, DX
	MOVQ	DX, (184)(CX)		// c11

	// [R8-R15,AX,DX,DI,(SP)] <- (AH+AL)*(BH+BL)-AL*BL
	MOVQ	(SP), R8
	SUBQ	(CX), R8
	MOVQ	(8)(SP), R9
	SBBQ	(8)(CX), R9
	MOVQ	(16)(SP), R10
	SBBQ	(16)(CX), R10
	MOVQ	(24)(SP), R11
	SBBQ	(24)(CX), R11
	MOVQ	(32)(SP), R12
	SBBQ	(32)(CX), R12
	MOVQ	(40)(SP), R13
	SBBQ	(40)(CX), R13
	MOVQ	(48)(SP), R14
	SBBQ	(48)(CX), R14
	MOVQ	(56)(SP), R15
	SBBQ	(56)(CX), R15
	MOVQ	(64)(SP), AX
	SBBQ	(64)(CX), AX
	MOVQ	(72)(SP), DX
	SBBQ	(72)(CX), DX
	MOVQ	(80)(SP), DI
	SBBQ	(80)(CX), DI
	MOVQ	(88)(SP), SI
	SBBQ	(88)(CX), SI
	MOVQ	SI, (SP)

	// [R8-R15,AX,DX,DI,(SP)] <- (AH+AL)*(BH+BL) - AL*BL - AH*BH
	MOVQ	(96)(CX), SI
	SUBQ	SI, R8
	MOVQ	(104)(CX), SI
	SBBQ	SI, R9
	MOVQ	(112)(CX), SI
	SBBQ	SI, R10
	MOVQ	(120)(CX), SI
	SBBQ	SI, R11
	MOVQ	(128)(CX), SI
	SBBQ	SI, R12
	MOVQ	(136)(CX), SI
	SBBQ	SI, R13
	MOVQ	(144)(CX), SI
	SBBQ	SI, R14
	MOVQ	(152)(CX), SI
	SBBQ	SI, R15
	MOVQ	(160)(CX), SI
	SBBQ	SI, AX
	MOVQ	(168)(CX), SI
	SBBQ	SI, DX
	MOVQ	(176)(CX), SI
	SBBQ	SI, DI
	MOVQ	(SP), SI
	SBBQ	(184)(CX), SI

	// FINAL RESULT
	ADDQ	(48)(CX), R8
	MOVQ	R8, (48)(CX)
	ADCQ	(56)(CX), R9
	MOVQ	R9, (56)(CX)
	ADCQ	(64)(CX), R10
	MOVQ	R10, (64)(CX)
	ADCQ	(72)(CX), R11
	MOVQ	R11, (72)(CX)
	ADCQ	(80)(CX), R12
	MOVQ	R12, (80)(CX)
	ADCQ	(88)(CX), R13
	MOVQ	R13, (88)(CX)
	ADCQ	(96)(CX), R14
	MOVQ	R14, (96)(CX)
	ADCQ	(104)(CX), R15
	MOVQ	R15, (104)(CX)
	ADCQ	(112)(CX), AX
	MOVQ	AX, (112)(CX)
	ADCQ	(120)(CX), DX
	MOVQ	DX, (120)(CX)
	ADCQ	(128)(CX), DI
	MOVQ	DI, (128)(CX)
	ADCQ	(136)(CX), SI
	MOVQ	SI, (136)(CX)
	MOVQ	(144)(CX), AX
	ADCQ	$0, AX
	MOVQ	AX, (144)(CX)
	MOVQ	(152)(CX), AX
	ADCQ	$0, AX
	MOVQ	AX, (152)(CX)
	MOVQ	(160)(CX), AX
	ADCQ	$0, AX
	MOVQ	AX, (160)(CX)
	MOVQ	(168)(CX), AX
	ADCQ	$0, AX
	MOVQ	AX, (168)(CX)
	MOVQ	(176)(CX), AX
	ADCQ	$0, AX
	MOVQ	AX, (176)(CX)
	MOVQ	(184)(CX), AX
	ADCQ	$0, AX
	MOVQ	AX, (184)(CX)

	RET

// This multiplies a 256-bit number pointed to by M0 with p751+1.
// C points to the place to store the result and should be at least 192 bits.
// This should only be used when the BMI2 and ADX instruction set extensions
// are available.
#define mul256x448bmi2adx(M0, C, T0, T1, T2, T3, T4, T5, T6, T7, T8, T9, T10) \
	MOVQ	0+M0, DX		\
	MOVQ    P751P1_5, AX    \
	MULXQ	AX, T1, T0      \
	MOVQ    P751P1_6, AX    \
	MULXQ	AX, T3, T2   	\
	MOVQ	T1, 0+C			\	// C0_final
	MOVQ    P751P1_7, AX    \
	MULXQ	AX, T5, T4	    \
	ADOXQ	T3, T0			\
	ADOXQ	T5, T2			\
	MOVQ    P751P1_8, AX    \
	MULXQ	AX, T3, T1	    \
	ADOXQ	T3, T4			\
	MOVQ    P751P1_9, AX    \
	MULXQ	AX, T6, T5	    \
	ADOXQ	T6, T1			\
	MOVQ    P751P1_10, AX   \
	MULXQ	AX, T7, T3	    \
	ADOXQ	T7, T5			\
	MOVQ    P751P1_11, AX   \
	MULXQ	AX, T8, T6	    \
	ADOXQ	T8, T3			\
	MOVL	$0, AX			\
	ADOXQ	AX, T6			\
					\
	MOVQ	8+M0, DX		\
	MOVQ    P751P1_5, AX    \
	MULXQ	AX, T7, T8	    \
	ADCXQ	T7, T0			\
	MOVQ	T0, 8+C			\	// C1_final
	ADCXQ	T8, T2			\
	MOVQ    P751P1_6, AX    \
	MULXQ	AX, T8, T7	    \
	ADOXQ	T8, T2			\
	ADCXQ	T7, T4			\
	MOVQ    P751P1_7, AX    \
	MULXQ	AX, T8, T0	    \
	ADOXQ	T8, T4			\
	ADCXQ	T1, T0			\
	MOVQ    P751P1_8, AX    \
	MULXQ	AX, T7, T1      \
	ADCXQ	T5, T1			\
	MOVQ    P751P1_9, AX    \
	MULXQ	AX, T8, T5	    \
	ADCXQ	T5, T3			\
	MOVQ    P751P1_10, AX   \
	MULXQ	AX, T9, T5   	\
	ADCXQ	T5, T6			\
	MOVQ    P751P1_11, AX   \
	MULXQ	AX, DX, T5	    \
	MOVL	$0, AX			\
	ADCXQ	AX, T5			\
					\
	ADOXQ	T7, T0			\
	ADOXQ	T8, T1			\
	ADOXQ	T9, T3			\
	ADOXQ	DX, T6			\
	ADOXQ	AX, T5			\
					\
	MOVQ	16+M0, DX	    \
	MOVQ    P751P1_5, AX    \
	MULXQ	AX, T7, T8	    \
	ADCXQ	T7, T2			\
	MOVQ	T2, 16+C		\	// C2_final
	ADCXQ	T8, T4			\
	MOVQ    P751P1_6, AX    \
	MULXQ	AX, T7, T8	    \
	ADOXQ	T7, T4			\
	ADCXQ	T8, T0			\
	MOVQ    P751P1_7, AX    \
	MULXQ	AX, T8, T2	    \
	ADOXQ	T8, T0			\
	ADCXQ	T2, T1			\
	MOVQ    P751P1_8, AX    \
	MULXQ	AX, T7, T2	    \
	ADCXQ	T2, T3			\
	MOVQ    P751P1_9, AX    \
	MULXQ	AX, T8, T2	    \
	ADCXQ	T2, T6			\
	MOVQ    P751P1_10, AX   \
	MULXQ	AX, T9, T2	    \
	ADCXQ	T2, T5			\
	MOVQ    P751P1_11, AX   \
	MULXQ	AX, DX, T2      \
	MOVL	$0, AX			\
	ADCXQ	AX, T2			\
					\
	ADOXQ	T7, T1			\
	ADOXQ	T8, T3			\
	ADOXQ	T9, T6			\
	ADOXQ	DX, T5			\
	ADOXQ	AX, T2			\
					\
	MOVQ	24+M0, DX		\
	MOVQ    P751P1_5, AX    \
	MULXQ	AX, T7, T8	    \
	ADCXQ	T4, T7			\
	ADCXQ	T8, T0			\
	MOVQ    P751P1_6, AX    \
	MULXQ	AX, T10, T8	    \
	ADOXQ	T10, T0			\
	ADCXQ	T8, T1			\
	MOVQ    P751P1_7, AX    \
	MULXQ	AX, T8, T4      \
	ADOXQ	T8, T1			\
	ADCXQ	T4, T3			\
	MOVQ    P751P1_8, AX    \
	MULXQ	AX, T10, T4	    \
	ADCXQ	T4, T6			\
	MOVQ    P751P1_9, AX    \
	MULXQ	AX, T8, T4	    \
	ADCXQ	T4, T5			\
	MOVQ    P751P1_10, AX   \
	MULXQ	AX, T9, T4	    \
	ADCXQ	T4, T2			\
	MOVQ    P751P1_11, AX   \
	MULXQ	AX, DX, T4	    \
	MOVL	$0, AX			\
	ADCXQ	AX, T4			\
					\
	ADOXQ	T10, T3			\
	ADOXQ	T8, T6			\
	ADOXQ	T9, T5			\
	ADOXQ	DX, T2			\
	ADOXQ	AX, T4

// This multiplies a 256-bit number pointed to by M0 with p751+1.
// C points to the place to store the result and should be at least 192 bits.
// This should only be used when the BMI2 instruction set extension is
// available.
#define mul256x448bmi2(M0, C, T0, T1, T2, T3, T4, T5, T6, T7, T8, T9, T10) \
	MOVQ	0+M0, DX		\
	MOVQ    P751P1_5, AX    \
	MULXQ	AX, T1, T0   	\
	MOVQ    P751P1_6, AX    \
	MULXQ	AX, T3, T2	    \
	MOVQ	T1, 0+C			\	// C0_final
	MOVQ    P751P1_7, AX    \
	MULXQ	AX, T5, T4	    \
	ADDQ	T3, T0			\
	ADCQ	T5, T2			\
	MOVQ    P751P1_8, AX    \
	MULXQ	AX, T3, T1	    \
	ADCQ	T3, T4			\
	MOVQ    P751P1_9, AX    \
	MULXQ	AX, T6, T5	    \
	ADCQ	T6, T1			\
	MOVQ    P751P1_10, AX   \
	MULXQ	AX, T7, T3	    \
	ADCQ	T7, T5			\
	MOVQ    P751P1_11, AX   \
	MULXQ	AX, T8, T6	    \
	ADCQ	T8, T3			\
	ADCQ	$0, T6			\
					\
	MOVQ	8+M0, DX		\
	MOVQ    P751P1_5, AX    \
	MULXQ	AX, T7, T8	    \
	ADDQ	T7, T0			\
	MOVQ	T0, 8+C			\	// C1_final
	ADCQ	T8, T2			\
	MOVQ    P751P1_6, AX    \
	MULXQ	AX, T8, T7	    \
	MOVQ	T8, 32+C		\
	ADCQ	T7, T4			\
	MOVQ    P751P1_7, AX    \
	MULXQ	AX, T8, T0	    \
	MOVQ	T8, 40+C	 	\
	ADCQ	T1, T0			\
	MOVQ    P751P1_8, AX    \
	MULXQ	AX, T7, T1	    \
	ADCQ	T5, T1			\
	MOVQ    P751P1_9, AX    \
	MULXQ	AX, T8, T5	    \
	ADCQ	T5, T3			\
	MOVQ    P751P1_10, AX   \
	MULXQ	AX, T9, T5	    \
	ADCQ	T5, T6			\
	MOVQ    P751P1_11, AX   \
	MULXQ	AX, DX, T5	    \
	ADCQ	$0, T5			\
					\
	XORQ	AX, AX			\
	ADDQ	32+C, T2		\
	ADCQ	40+C, T4		\
	ADCQ	T7, T0			\
	ADCQ	T8, T1			\
	ADCQ	T9, T3			\
	ADCQ	DX, T6			\
	ADCQ	AX, T5			\
					\
	MOVQ	16+M0, DX		\
	MOVQ    P751P1_5, AX    \
	MULXQ	AX, T7, T8	    \
	ADDQ	T7, T2			\
	MOVQ	T2, 16+C		\	// C2_final
	ADCQ	T8, T4			\
	MOVQ    P751P1_6, AX    \
	MULXQ	AX, T7, T8	    \
	MOVQ	T7, 32+C		\
	ADCQ	T8, T0			\
	MOVQ    P751P1_7, AX    \
	MULXQ	AX, T8, T2	    \
	MOVQ	T8, 40+C		\
	ADCQ	T2, T1			\
	MOVQ    P751P1_8, AX    \
	MULXQ	AX, T7, T2	    \
	ADCQ	T2, T3			\
	MOVQ    P751P1_9, AX    \
	MULXQ	AX, T8, T2	    \
	ADCQ	T2, T6			\
	MOVQ    P751P1_10, AX   \
	MULXQ	AX, T9, T2	    \
	ADCQ	T2, T5			\
	MOVQ    P751P1_11, AX   \
	MULXQ	AX, DX, T2	    \
	ADCQ	$0, T2			\
					\
	XORQ	AX, AX			\
	ADDQ	32+C, T4		\
	ADCQ	40+C, T0		\
	ADCQ	T7, T1			\
	ADCQ	T8, T3			\
	ADCQ	T9, T6			\
	ADCQ	DX, T5			\
	ADCQ	AX, T2			\
					\
	MOVQ	24+M0, DX		\
	MOVQ    P751P1_5, AX    \
	MULXQ	AX, T7, T8	    \
	ADDQ	T4, T7			\
	ADCQ	T8, T0			\
	MOVQ    P751P1_6, AX    \
	MULXQ	AX, T10, T8  	\
	MOVQ	T10, 32+C 		\
	ADCQ	T8, T1			\
	MOVQ    P751P1_7, AX    \
	MULXQ	AX, T8, T4	    \
	MOVQ	T8, 40+C		\
	ADCQ	T4, T3			\
	MOVQ    P751P1_8, AX    \
	MULXQ	AX, T10, T4	    \
	ADCQ	T4, T6			\
	MOVQ    P751P1_9, AX    \
	MULXQ	AX, T8, T4	    \
	ADCQ	T4, T5			\
	MOVQ    P751P1_10, AX   \
	MULXQ	AX, T9, T4	    \
	ADCQ	T4, T2			\
	MOVQ    P751P1_11, AX   \
	MULXQ	AX, DX, T4	    \
	ADCQ	$0, T4			\
					\
	XORQ	AX, AX			\
	ADDQ	32+C, T0		\
	ADCQ	40+C, T1		\
	ADCQ	T10, T3			\
	ADCQ	T8, T6			\
	ADCQ	T9, T5			\
	ADCQ	DX, T2			\
	ADCQ	AX, T4

// Template for calculating the Montgomery reduction algorithm described in
// section 5.2.3 of https://eprint.iacr.org/2017/1015.pdf. Template must be
// customized with schoolbook multiplication for 256 x 448-bit number.
// This macro reuses memory of IN value and *changes* it. Smashes registers
// R[8-15], AX, BX, CX, DX, BP.
// Input:
//    * M0: 1536-bit number to be reduced
//    * C : either mul256x448bmi2 or mul256x448bmi2adx
// Output: OUT 768-bit
#define REDC(C, M0, MULS) 	\
    \ // a[0-3] x p751p1_nz --> result: [reg_p2+48], [reg_p2+56], [reg_p2+64], and rbp, r8:r14
    MULS(M0, 48+C, R8, R9, R13, R10, R14, R12, R11, BP, BX, CX, R15) \
    XORQ    R15, R15        \
    MOVQ    48+C, AX        \
    MOVQ    56+C, DX        \
    MOVQ    64+C, BX        \
    ADDQ    40+M0, AX       \
    ADCQ    48+M0, DX       \
    ADCQ    56+M0, BX       \
    MOVQ    AX, 40+M0       \
    MOVQ    DX, 48+M0       \
    MOVQ    BX, 56+M0       \
    ADCQ    64+M0, BP       \
    ADCQ    72+M0, R8       \
    ADCQ    80+M0, R9       \
    ADCQ    88+M0, R10      \
    ADCQ    96+M0, R11      \
    ADCQ    104+M0, R12     \
    ADCQ    112+M0, R13     \
    ADCQ    120+M0, R14     \
    ADCQ    128+M0, R15     \
    MOVQ    BP, 64+M0       \
    MOVQ    R8, 72+M0       \
    MOVQ    R9, 80+M0       \
    MOVQ    R10, 88+M0      \
    MOVQ    R11, 96+M0      \
    MOVQ    R12, 104+M0     \
    MOVQ    R13, 112+M0     \
    MOVQ    R14, 120+M0     \
    MOVQ    R15, 128+M0     \
    MOVQ    136+M0, R8      \
    MOVQ    144+M0, R9      \
    MOVQ    152+M0, R10     \
    MOVQ    160+M0, R11     \
    MOVQ    168+M0, R12     \
    MOVQ    176+M0, R13     \
    MOVQ    184+M0, R14     \
    ADCQ    $0, R8          \
    ADCQ    $0, R9          \
    ADCQ    $0, R10         \
    ADCQ    $0, R11         \
    ADCQ    $0, R12         \
    ADCQ    $0, R13         \
    ADCQ    $0, R14         \
    MOVQ    R8, 136+M0      \
    MOVQ    R9, 144+M0      \
    MOVQ    R10, 152+M0     \
    MOVQ    R11, 160+M0     \
    MOVQ    R12, 168+M0     \
    MOVQ    R13, 176+M0     \
    MOVQ    R14, 184+M0     \
    \ // a[4-7] x p751p1_nz --> result: [reg_p2+48], [reg_p2+56], [reg_p2+64], and rbp, r8:r14
    MULS(32+M0, 48+C, R8, R9, R13, R10, R14, R12, R11, BP, BX, CX, R15) \
    XORQ    R15, R15          \
    MOVQ    48+C, AX        \
    MOVQ    56+C, DX        \
    MOVQ    64+C, BX        \
    ADDQ    72+M0, AX       \
    ADCQ    80+M0, DX       \
    ADCQ    88+M0, BX       \
    MOVQ    AX, 72+M0       \
    MOVQ    DX, 80+M0       \
    MOVQ    BX, 88+M0       \
    ADCQ    96+M0, BP       \
    ADCQ    104+M0, R8      \
    ADCQ    112+M0, R9      \
    ADCQ    120+M0, R10     \
    ADCQ    128+M0, R11     \
    ADCQ    136+M0, R12     \
    ADCQ    144+M0, R13     \
    ADCQ    152+M0, R14     \
    ADCQ    160+M0, R15     \
    MOVQ    BP, 0+C         \   // Final result c0
    MOVQ    R8, 104+M0      \
    MOVQ    R9, 112+M0      \
    MOVQ    R10, 120+M0     \
    MOVQ    R11, 128+M0     \
    MOVQ    R12, 136+M0     \
    MOVQ    R13, 144+M0     \
    MOVQ    R14, 152+M0     \
    MOVQ    R15, 160+M0     \
    MOVQ    168+M0, R12     \
    MOVQ    176+M0, R13     \
    MOVQ    184+M0, R14     \
    ADCQ    $0, R12         \
    ADCQ    $0, R13         \
    ADCQ    $0, R14         \
    MOVQ    R12, 168+M0     \
    MOVQ    R13, 176+M0     \
    MOVQ    R14, 184+M0     \
    \ // a[8-11] x p751p1_nz --> result: [reg_p2+48], [reg_p2+56], [reg_p2+64], and rbp, r8:r14
    MULS(64+M0, 48+C, R8, R9, R13, R10, R14, R12, R11, BP, BX, CX, R15) \
    MOVQ    48+C, AX        \   // Final result c1:c11
    MOVQ    56+C, DX        \
    MOVQ    64+C, BX        \
    ADDQ    104+M0, AX      \
    ADCQ    112+M0, DX      \
    ADCQ    120+M0, BX      \
    MOVQ    AX, 8+C         \
    MOVQ    DX, 16+C        \
    MOVQ    BX, 24+C        \
    ADCQ    128+M0, BP      \
    ADCQ    136+M0, R8      \
    ADCQ    144+M0, R9      \
    ADCQ    152+M0, R10     \
    ADCQ    160+M0, R11     \
    ADCQ    168+M0, R12     \
    ADCQ    176+M0, R13     \
    ADCQ    184+M0, R14     \
    MOVQ    BP, 32+C        \
    MOVQ    R8, 40+C        \
    MOVQ    R9, 48+C        \
    MOVQ    R10, 56+C       \
    MOVQ    R11, 64+C       \
    MOVQ    R12, 72+C       \
    MOVQ    R13, 80+C       \
    MOVQ    R14, 88+C

TEXT ·rdcP751(SB), $8-16
	MOVQ z+0(FP), REG_P2
	MOVQ x+8(FP), REG_P1

	// Check whether to use optimized implementation
	CMPB    ·HasADXandBMI2(SB), $1
	JE      redc_with_mulx_adcx_adox
	CMPB    ·HasBMI2(SB), $1
	JE      redc_with_mulx

	MOVQ	(REG_P1), R11
	MOVQ	P751P1_5, AX
	MULQ	R11
	XORQ	R8, R8
	ADDQ	(40)(REG_P1), AX
	MOVQ	AX, (40)(REG_P2)		// Z5
	ADCQ	DX, R8

	XORQ	R9, R9
	MOVQ	P751P1_6, AX
	MULQ	R11
	XORQ	R10, R10
	ADDQ	AX, R8
	ADCQ	DX, R9

	MOVQ	(8)(REG_P1), R12
	MOVQ	P751P1_5, AX
	MULQ	R12
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10
	ADDQ	(48)(REG_P1), R8
	MOVQ	R8, (48)(REG_P2)		// Z6
	ADCQ	$0, R9
	ADCQ	$0, R10

	XORQ	R8, R8
	MOVQ	P751P1_7, AX
	MULQ	R11
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_6, AX
	MULQ	R12
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(16)(REG_P1), R13
	MOVQ	P751P1_5, AX
	MULQ	R13
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8
	ADDQ	(56)(REG_P1), R9
	MOVQ	R9, (56)(REG_P2)		// Z7
	ADCQ	$0, R10
	ADCQ	$0, R8

	XORQ	R9, R9
	MOVQ	P751P1_8, AX
	MULQ	R11
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_7, AX
	MULQ	R12
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_6, AX
	MULQ	R13
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(24)(REG_P1), R14
	MOVQ	P751P1_5, AX
	MULQ	R14
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9
	ADDQ	(64)(REG_P1), R10
	MOVQ	R10, (64)(REG_P2)		// Z8
	ADCQ	$0, R8
	ADCQ	$0, R9

	XORQ	R10, R10
	MOVQ	P751P1_9, AX
	MULQ	R11
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_8, AX
	MULQ	R12
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_7, AX
	MULQ	R13
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_6, AX
	MULQ	R14
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(32)(REG_P1), R15
	MOVQ	P751P1_5, AX
	MULQ	R15
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10
	ADDQ	(72)(REG_P1), R8
	MOVQ	R8, (72)(REG_P2)		// Z9
	ADCQ	$0, R9
	ADCQ	$0, R10

	XORQ	R8, R8
	MOVQ	P751P1_10, AX
	MULQ	R11
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_9, AX
	MULQ	R12
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_8, AX
	MULQ	R13
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_7, AX
	MULQ	R14
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_6, AX
	MULQ	R15
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(40)(REG_P2), CX
	MOVQ	P751P1_5, AX
	MULQ	CX
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8
	ADDQ	(80)(REG_P1), R9
	MOVQ	R9, (80)(REG_P2)		// Z10
	ADCQ	$0, R10
	ADCQ	$0, R8

	XORQ	R9, R9
	MOVQ	P751P1_11, AX
	MULQ	R11
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_10, AX
	MULQ	R12
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_9, AX
	MULQ	R13
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_8, AX
	MULQ	R14
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_7, AX
	MULQ	R15
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_6, AX
	MULQ	CX
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(48)(REG_P2), R11
	MOVQ	P751P1_5, AX
	MULQ	R11
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9
	ADDQ	(88)(REG_P1), R10
	MOVQ	R10, (88)(REG_P2)		// Z11
	ADCQ	$0, R8
	ADCQ	$0, R9

	XORQ	R10, R10
	MOVQ	P751P1_11, AX
	MULQ	R12
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_10, AX
	MULQ	R13
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_9, AX
	MULQ	R14
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_8, AX
	MULQ	R15
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_7, AX
	MULQ	CX
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_6, AX
	MULQ	R11
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(56)(REG_P2), R12
	MOVQ	P751P1_5, AX
	MULQ	R12
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10
	ADDQ	(96)(REG_P1), R8
	MOVQ	R8, (REG_P2)		// Z0
	ADCQ	$0, R9
	ADCQ	$0, R10

	XORQ	R8, R8
	MOVQ	P751P1_11, AX
	MULQ	R13
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_10, AX
	MULQ	R14
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_9, AX
	MULQ	R15
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_8, AX
	MULQ	CX
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_7, AX
	MULQ	R11
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_6, AX
	MULQ	R12
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(64)(REG_P2), R13
	MOVQ	P751P1_5, AX
	MULQ	R13
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8
	ADDQ	(104)(REG_P1), R9
	MOVQ	R9, (8)(REG_P2)		// Z1
	ADCQ	$0, R10
	ADCQ	$0, R8

	XORQ	R9, R9
	MOVQ	P751P1_11, AX
	MULQ	R14
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_10, AX
	MULQ	R15
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_9, AX
	MULQ	CX
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_8, AX
	MULQ	R11
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_7, AX
	MULQ	R12
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_6, AX
	MULQ	R13
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	(72)(REG_P2), R14
	MOVQ	P751P1_5, AX
	MULQ	R14
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9
	ADDQ	(112)(REG_P1), R10
	MOVQ	R10, (16)(REG_P2)		// Z2
	ADCQ	$0, R8
	ADCQ	$0, R9

	XORQ	R10, R10
	MOVQ	P751P1_11, AX
	MULQ	R15
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_10, AX
	MULQ	CX
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_9, AX
	MULQ	R11
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_8, AX
	MULQ	R12
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_7, AX
	MULQ	R13
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_6, AX
	MULQ	R14
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	(80)(REG_P2), R15
	MOVQ	P751P1_5, AX
	MULQ	R15
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10
	ADDQ	(120)(REG_P1), R8
	MOVQ	R8, (24)(REG_P2)		// Z3
	ADCQ	$0, R9
	ADCQ	$0, R10

	XORQ	R8, R8
	MOVQ	P751P1_11, AX
	MULQ	CX
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_10, AX
	MULQ	R11
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_9, AX
	MULQ	R12
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_8, AX
	MULQ	R13
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_7, AX
	MULQ	R14
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_6, AX
	MULQ	R15
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	(88)(REG_P2), CX
	MOVQ	P751P1_5, AX
	MULQ	CX
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8
	ADDQ	(128)(REG_P1), R9
	MOVQ	R9, (32)(REG_P2)		// Z4
	ADCQ	$0, R10
	ADCQ	$0, R8

	XORQ	R9, R9
	MOVQ	P751P1_11, AX
	MULQ	R11
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_10, AX
	MULQ	R12
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_9, AX
	MULQ	R13
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_8, AX
	MULQ	R14
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_7, AX
	MULQ	R15
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_6, AX
	MULQ	CX
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9
	ADDQ	(136)(REG_P1), R10
	MOVQ	R10, (40)(REG_P2)		// Z5
	ADCQ	$0, R8
	ADCQ	$0, R9

	XORQ	R10, R10
	MOVQ	P751P1_11, AX
	MULQ	R12
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_10, AX
	MULQ	R13
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_9, AX
	MULQ	R14
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_8, AX
	MULQ	R15
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_7, AX
	MULQ	CX
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10
	ADDQ	(144)(REG_P1), R8
	MOVQ	R8, (48)(REG_P2)		// Z6
	ADCQ	$0, R9
	ADCQ	$0, R10

	XORQ	R8, R8
	MOVQ	P751P1_11, AX
	MULQ	R13
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_10, AX
	MULQ	R14
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_9, AX
	MULQ	R15
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8

	MOVQ	P751P1_8, AX
	MULQ	CX
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADCQ	$0, R8
	ADDQ	(152)(REG_P1), R9
	MOVQ	R9, (56)(REG_P2)		// Z7
	ADCQ	$0, R10
	ADCQ	$0, R8

	XORQ	R9, R9
	MOVQ	P751P1_11, AX
	MULQ	R14
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_10, AX
	MULQ	R15
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9

	MOVQ	P751P1_9, AX
	MULQ	CX
	ADDQ	AX, R10
	ADCQ	DX, R8
	ADCQ	$0, R9
	ADDQ	(160)(REG_P1), R10
	MOVQ	R10, (64)(REG_P2)		// Z8
	ADCQ	$0, R8
	ADCQ	$0, R9

	XORQ	R10, R10
	MOVQ	P751P1_11, AX
	MULQ	R15
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10

	MOVQ	P751P1_10, AX
	MULQ	CX
	ADDQ	AX, R8
	ADCQ	DX, R9
	ADCQ	$0, R10
	ADDQ	(168)(REG_P1), R8		// Z9
	MOVQ	R8, (72)(REG_P2)		// Z9
	ADCQ	$0, R9
	ADCQ	$0, R10

	MOVQ	P751P1_11, AX
	MULQ	CX
	ADDQ	AX, R9
	ADCQ	DX, R10
	ADDQ	(176)(REG_P1), R9		// Z10
	MOVQ	R9, (80)(REG_P2)		// Z10
	ADCQ	$0, R10
	ADDQ	(184)(REG_P1), R10		// Z11
	MOVQ	R10, (88)(REG_P2)		// Z11
	RET

redc_with_mulx_adcx_adox:
	// This implements the Montgomery reduction algorithm described in
	// section 5.2.3 of https://eprint.iacr.org/2017/1015.pdf.
	// This assumes that the BMI2 and ADX instruction set extensions are available.
	MOVQ BP, 0(SP) // push: BP is Callee-save.
	REDC(0(REG_P2), 0(REG_P1), mul256x448bmi2adx)
	MOVQ 0(SP), BP // pop: BP is Callee-save.
	RET

redc_with_mulx:
	// This implements the Montgomery reduction algorithm described in
	// section 5.2.3 of https://eprint.iacr.org/2017/1015.pdf.
	// This assumes that the BMI2 instruction set extension is available.
	MOVQ BP, 0(SP) // push: BP is Callee-save.
	REDC(0(REG_P2), 0(REG_P1), mul256x448bmi2)
	MOVQ 0(SP), BP // pop: BP is Callee-save.
	RET

TEXT ·adlP751(SB), NOSPLIT, $0-24

	MOVQ z+0(FP), REG_P3
	MOVQ x+8(FP), REG_P1
	MOVQ y+16(FP), REG_P2

	MOVQ	(REG_P1), R8
	MOVQ	(8)(REG_P1), R9
	MOVQ	(16)(REG_P1), R10
	MOVQ	(24)(REG_P1), R11
	MOVQ	(32)(REG_P1), R12
	MOVQ	(40)(REG_P1), R13
	MOVQ	(48)(REG_P1), R14
	MOVQ	(56)(REG_P1), R15
	MOVQ	(64)(REG_P1), AX
	MOVQ	(72)(REG_P1), BX
	MOVQ	(80)(REG_P1), CX

	ADDQ	(REG_P2), R8
	ADCQ	(8)(REG_P2), R9
	ADCQ	(16)(REG_P2), R10
	ADCQ	(24)(REG_P2), R11
	ADCQ	(32)(REG_P2), R12
	ADCQ	(40)(REG_P2), R13
	ADCQ	(48)(REG_P2), R14
	ADCQ	(56)(REG_P2), R15
	ADCQ	(64)(REG_P2), AX
	ADCQ	(72)(REG_P2), BX
	ADCQ	(80)(REG_P2), CX

	MOVQ	R8, (REG_P3)
	MOVQ	R9, (8)(REG_P3)
	MOVQ	R10, (16)(REG_P3)
	MOVQ	R11, (24)(REG_P3)
	MOVQ	R12, (32)(REG_P3)
	MOVQ	R13, (40)(REG_P3)
	MOVQ	R14, (48)(REG_P3)
	MOVQ	R15, (56)(REG_P3)
	MOVQ	AX, (64)(REG_P3)
	MOVQ	BX, (72)(REG_P3)
	MOVQ	CX, (80)(REG_P3)
	MOVQ	(88)(REG_P1), AX
	ADCQ	(88)(REG_P2), AX
	MOVQ	AX, (88)(REG_P3)

	MOVQ	(96)(REG_P1), R8
	MOVQ	(104)(REG_P1), R9
	MOVQ	(112)(REG_P1), R10
	MOVQ	(120)(REG_P1), R11
	MOVQ	(128)(REG_P1), R12
	MOVQ	(136)(REG_P1), R13
	MOVQ	(144)(REG_P1), R14
	MOVQ	(152)(REG_P1), R15
	MOVQ	(160)(REG_P1), AX
	MOVQ	(168)(REG_P1), BX
	MOVQ	(176)(REG_P1), CX
	MOVQ	(184)(REG_P1), DI

	ADCQ	(96)(REG_P2), R8
	ADCQ	(104)(REG_P2), R9
	ADCQ	(112)(REG_P2), R10
	ADCQ	(120)(REG_P2), R11
	ADCQ	(128)(REG_P2), R12
	ADCQ	(136)(REG_P2), R13
	ADCQ	(144)(REG_P2), R14
	ADCQ	(152)(REG_P2), R15
	ADCQ	(160)(REG_P2), AX
	ADCQ	(168)(REG_P2), BX
	ADCQ	(176)(REG_P2), CX
	ADCQ	(184)(REG_P2), DI

	MOVQ	R8, (96)(REG_P3)
	MOVQ	R9, (104)(REG_P3)
	MOVQ	R10, (112)(REG_P3)
	MOVQ	R11, (120)(REG_P3)
	MOVQ	R12, (128)(REG_P3)
	MOVQ	R13, (136)(REG_P3)
	MOVQ	R14, (144)(REG_P3)
	MOVQ	R15, (152)(REG_P3)
	MOVQ	AX, (160)(REG_P3)
	MOVQ	BX, (168)(REG_P3)
	MOVQ	CX, (176)(REG_P3)
	MOVQ	DI, (184)(REG_P3)

	RET


TEXT ·sulP751(SB), NOSPLIT, $0-24

	MOVQ z+0(FP), REG_P3
	MOVQ x+8(FP), REG_P1
	MOVQ y+16(FP), REG_P2

	MOVQ	(REG_P1), R8
	MOVQ	(8)(REG_P1), R9
	MOVQ	(16)(REG_P1), R10
	MOVQ	(24)(REG_P1), R11
	MOVQ	(32)(REG_P1), R12
	MOVQ	(40)(REG_P1), R13
	MOVQ	(48)(REG_P1), R14
	MOVQ	(56)(REG_P1), R15
	MOVQ	(64)(REG_P1), AX
	MOVQ	(72)(REG_P1), BX
	MOVQ	(80)(REG_P1), CX

	SUBQ	(REG_P2), R8
	SBBQ	(8)(REG_P2), R9
	SBBQ	(16)(REG_P2), R10
	SBBQ	(24)(REG_P2), R11
	SBBQ	(32)(REG_P2), R12
	SBBQ	(40)(REG_P2), R13
	SBBQ	(48)(REG_P2), R14
	SBBQ	(56)(REG_P2), R15
	SBBQ	(64)(REG_P2), AX
	SBBQ	(72)(REG_P2), BX
	SBBQ	(80)(REG_P2), CX

	MOVQ	R8, (REG_P3)
	MOVQ	R9, (8)(REG_P3)
	MOVQ	R10, (16)(REG_P3)
	MOVQ	R11, (24)(REG_P3)
	MOVQ	R12, (32)(REG_P3)
	MOVQ	R13, (40)(REG_P3)
	MOVQ	R14, (48)(REG_P3)
	MOVQ	R15, (56)(REG_P3)
	MOVQ	AX, (64)(REG_P3)
	MOVQ	BX, (72)(REG_P3)
	MOVQ	CX, (80)(REG_P3)
	MOVQ	(88)(REG_P1), AX
	SBBQ	(88)(REG_P2), AX
	MOVQ	AX, (88)(REG_P3)

	MOVQ	(96)(REG_P1), R8
	MOVQ	(104)(REG_P1), R9
	MOVQ	(112)(REG_P1), R10
	MOVQ	(120)(REG_P1), R11
	MOVQ	(128)(REG_P1), R12
	MOVQ	(136)(REG_P1), R13
	MOVQ	(144)(REG_P1), R14
	MOVQ	(152)(REG_P1), R15
	MOVQ	(160)(REG_P1), AX
	MOVQ	(168)(REG_P1), BX
	MOVQ	(176)(REG_P1), CX
	MOVQ	(184)(REG_P1), DI

	SBBQ	(96)(REG_P2), R8
	SBBQ	(104)(REG_P2), R9
	SBBQ	(112)(REG_P2), R10
	SBBQ	(120)(REG_P2), R11
	SBBQ	(128)(REG_P2), R12
	SBBQ	(136)(REG_P2), R13
	SBBQ	(144)(REG_P2), R14
	SBBQ	(152)(REG_P2), R15
	SBBQ	(160)(REG_P2), AX
	SBBQ	(168)(REG_P2), BX
	SBBQ	(176)(REG_P2), CX
	SBBQ	(184)(REG_P2), DI

	MOVQ	R8, (96)(REG_P3)
	MOVQ	R9, (104)(REG_P3)
	MOVQ	R10, (112)(REG_P3)
	MOVQ	R11, (120)(REG_P3)
	MOVQ	R12, (128)(REG_P3)
	MOVQ	R13, (136)(REG_P3)
	MOVQ	R14, (144)(REG_P3)
	MOVQ	R15, (152)(REG_P3)
	MOVQ	AX, (160)(REG_P3)
	MOVQ	BX, (168)(REG_P3)
	MOVQ	CX, (176)(REG_P3)
	MOVQ	DI, (184)(REG_P3)

	// Now the carry flag is 1 if x-y < 0.  If so, add p*2^768.
	MOVQ	$0, AX
	SBBQ	$0, AX

	// Load p into registers:
	MOVQ	P751_0, R8
	// P751_{1,2,3,4} = P751_0, so reuse R8
	MOVQ	P751_5, R9
	MOVQ	P751_6, R10
	MOVQ	P751_7, R11
	MOVQ	P751_8, R12
	MOVQ	P751_9, R13
	MOVQ	P751_10, R14
	MOVQ	P751_11, R15

	ANDQ	AX, R8
	ANDQ	AX, R9
	ANDQ	AX, R10
	ANDQ	AX, R11
	ANDQ	AX, R12
	ANDQ	AX, R13
	ANDQ	AX, R14
	ANDQ	AX, R15

	ADDQ	R8,  (96   )(REG_P3)
	ADCQ	R8,  (96+ 8)(REG_P3)
	ADCQ	R8,  (96+16)(REG_P3)
	ADCQ	R8,  (96+24)(REG_P3)
	ADCQ	R8,  (96+32)(REG_P3)
	ADCQ	R9,  (96+40)(REG_P3)
	ADCQ	R10, (96+48)(REG_P3)
	ADCQ	R11, (96+56)(REG_P3)
	ADCQ	R12, (96+64)(REG_P3)
	ADCQ	R13, (96+72)(REG_P3)
	ADCQ	R14, (96+80)(REG_P3)
	ADCQ    R15, (96+88)(REG_P3)

	RET