Added ENABLE_DIV and picorv32_pcpi_div

2016-04-10 16:54:35 +02:00 · 2016-04-10 16:54:35 +02:00 · 00dd6ac38e
parent 8f58453109
commit 00dd6ac38e
8 changed files with 298 additions and 5 deletions
--- a/README.md
+++ b/README.md
@ -67,8 +67,9 @@ fault handlers, or catch instructions from a larger ISA and emulate them in
 software.
 The optional Pico Co-Processor Interface (PCPI) can be used to implement
-non-branching instructions in an external coprocessor. An implementation
+non-branching instructions in an external coprocessor. Implementations
-of a core that implements the `MUL[H[SU|U]]` instructions is provided.
+of PCPI cores that implement the M Standard Extension instructions
 `MUL[H[SU|U]]` and `DIV[U]/REM[U]` are included in this package.
 Files in this Repository
@ -209,6 +210,12 @@ This parameter internally enables PCPI and instantiates the `picorv32_pcpi_mul`
 core that implements the `MUL[H[SU|U]]` instructions. The external PCPI
 interface only becomes functional when ENABLE_PCPI is set as well.
 #### ENABLE_DIV (default = 0)
 This parameter internally enables PCPI and instantiates the `picorv32_pcpi_div`
 core that implements the `DIV[U]/REM[U]` instructions. The external PCPI
 interface only becomes functional when ENABLE_PCPI is set as well.
 #### ENABLE_IRQ (default = 0)
 Set this to 1 to enable IRQs. (see "Custom Instructions for IRQ Handling" below
--- a/firmware/start.S
+++ b/firmware/start.S
@ -435,6 +435,11 @@ start:
 	TEST(mulhu)
 	TEST(mul)
 	TEST(div)
 	TEST(divu)
 	TEST(rem)
 	TEST(remu)
 	TEST(simple)
 	/* set stack pointer */
--- a/picorv32.v
+++ b/picorv32.v
@ -50,6 +50,7 @@ module picorv32 #(
 	parameter [ 0:0] CATCH_ILLINSN = 1,
 	parameter [ 0:0] ENABLE_PCPI = 0,
 	parameter [ 0:0] ENABLE_MUL = 0,
 	parameter [ 0:0] ENABLE_DIV = 0,
 	parameter [ 0:0] ENABLE_IRQ = 0,
 	parameter [ 0:0] ENABLE_IRQ_QREGS = 1,
 	parameter [ 0:0] ENABLE_IRQ_TIMER = 1,
@ -99,7 +100,7 @@ module picorv32 #(
 	localparam integer regfile_size = (ENABLE_REGS_16_31 ? 32 : 16) + 4*ENABLE_IRQ*ENABLE_IRQ_QREGS;
 	localparam integer regindex_bits = (ENABLE_REGS_16_31 ? 5 : 4) + ENABLE_IRQ*ENABLE_IRQ_QREGS;
-	localparam WITH_PCPI = ENABLE_PCPI || ENABLE_MUL;
+	localparam WITH_PCPI = ENABLE_PCPI || ENABLE_MUL || ENABLE_DIV;
 	reg [63:0] count_cycle, count_instr;
 	reg [31:0] reg_pc, reg_next_pc, reg_op1, reg_op2, reg_out;
@ -127,6 +128,11 @@ module picorv32 #(
 	wire        pcpi_mul_wait;
 	wire        pcpi_mul_ready;
 	wire        pcpi_div_wr;
 	wire [31:0] pcpi_div_rd;
 	wire        pcpi_div_wait;
 	wire        pcpi_div_ready;
 	reg        pcpi_int_wr;
 	reg [31:0] pcpi_int_rd;
 	reg        pcpi_int_wait;
@ -152,11 +158,31 @@ module picorv32 #(
 		assign pcpi_mul_ready = 0;
 	end endgenerate
 	generate if (ENABLE_DIV) begin
 		picorv32_pcpi_div pcpi_div (
 			.clk       (clk            ),
 			.resetn    (resetn         ),
 			.pcpi_valid(pcpi_valid     ),
 			.pcpi_insn (pcpi_insn      ),
 			.pcpi_rs1  (pcpi_rs1       ),
 			.pcpi_rs2  (pcpi_rs2       ),
 			.pcpi_wr   (pcpi_div_wr    ),
 			.pcpi_rd   (pcpi_div_rd    ),
 			.pcpi_wait (pcpi_div_wait  ),
 			.pcpi_ready(pcpi_div_ready )
 		);
 	end else begin
 		assign pcpi_div_wr = 0;
 		assign pcpi_div_rd = 1'bx;
 		assign pcpi_div_wait = 0;
 		assign pcpi_div_ready = 0;
 	end endgenerate
 	always @* begin
 		pcpi_int_wr = 0;
 		pcpi_int_rd = 1'bx;
-		pcpi_int_wait  = |{ENABLE_PCPI && pcpi_wait,  ENABLE_MUL && pcpi_mul_wait};
+		pcpi_int_wait  = |{ENABLE_PCPI && pcpi_wait,  ENABLE_MUL && pcpi_mul_wait,  ENABLE_DIV && pcpi_div_wait};
-		pcpi_int_ready = |{ENABLE_PCPI && pcpi_ready, ENABLE_MUL && pcpi_mul_ready};
+		pcpi_int_ready = |{ENABLE_PCPI && pcpi_ready, ENABLE_MUL && pcpi_mul_ready, ENABLE_DIV && pcpi_div_ready};
 		(* parallel_case *)
 		case (1'b1)
@ -168,6 +194,10 @@ module picorv32 #(
 				pcpi_int_wr = pcpi_mul_wr;
 				pcpi_int_rd = pcpi_mul_rd;
 			end
 			ENABLE_DIV && pcpi_div_ready: begin
 				pcpi_int_wr = pcpi_div_wr;
 				pcpi_int_rd = pcpi_div_rd;
 			end
 		endcase
 	end
@ -1548,6 +1578,90 @@ module picorv32_pcpi_mul #(
 endmodule
 /***************************************************************
 * picorv32_pcpi_div
 ***************************************************************/
 module picorv32_pcpi_div (
 	input clk, resetn,
 	input             pcpi_valid,
 	input      [31:0] pcpi_insn,
 	input      [31:0] pcpi_rs1,
 	input      [31:0] pcpi_rs2,
 	output reg        pcpi_wr,
 	output reg [31:0] pcpi_rd,
 	output reg        pcpi_wait,
 	output reg        pcpi_ready
 );
 	reg instr_div, instr_divu, instr_rem, instr_remu;
 	wire instr_any_div_rem = |{instr_div, instr_divu, instr_rem, instr_remu};
 	reg pcpi_wait_q;
 	wire start = pcpi_wait && !pcpi_wait_q;
 	always @(posedge clk) begin
 		instr_div <= 0;
 		instr_divu <= 0;
 		instr_rem <= 0;
 		instr_remu <= 0;
 		if (resetn && pcpi_valid && !pcpi_ready && pcpi_insn[6:0] == 7'b0110011 && pcpi_insn[31:25] == 7'b0000001) begin
 			case (pcpi_insn[14:12])
 				3'b100: instr_div <= 1;
 				3'b101: instr_divu <= 1;
 				3'b110: instr_rem <= 1;
 				3'b111: instr_remu <= 1;
 			endcase
 		end
 		pcpi_wait <= instr_any_div_rem;
 		pcpi_wait_q <= pcpi_wait;
 	end
 	reg [31:0] dividend;
 	reg [62:0] divisor;
 	reg [31:0] quotient;
 	reg [31:0] quotient_msk;
 	reg running;
 	reg outsign;
 	always @(posedge clk) begin
 		pcpi_ready <= 0;
 		pcpi_wr <= 0;
 		pcpi_rd <= 'bx;
 		if (!resetn) begin
 			running <= 0;
 		end else
 		if (start) begin
 			running <= 1;
 			dividend <= (instr_div || instr_rem) && pcpi_rs1[31] ? -pcpi_rs1 : pcpi_rs1;
 			divisor <= ((instr_div || instr_rem) && pcpi_rs2[31] ? -pcpi_rs2 : pcpi_rs2) << 31;
 			outsign <= (instr_div && (pcpi_rs1[31] != pcpi_rs2[31])) || (instr_rem && pcpi_rs1[31]);
 			quotient <= 0;
 			quotient_msk <= 1 << 31;
 		end else
 		if (!quotient_msk && running) begin
 			running <= 0;
 			pcpi_ready <= 1;
 			pcpi_wr <= 1;
 			if (instr_div || instr_divu)
 				pcpi_rd <= outsign ? -quotient : quotient;
 			else
 				pcpi_rd <= outsign ? -dividend : dividend;
 		end else begin
 			if (divisor <= dividend) begin
 				dividend <= dividend - divisor;
 				quotient <= quotient | quotient_msk;
 			end
 			divisor <= divisor >> 1;
 			quotient_msk <= quotient_msk >> 1;
 		end
 	end
 endmodule
 /***************************************************************
 * picorv32_axi
 ***************************************************************/
@ -1564,6 +1678,7 @@ module picorv32_axi #(
 	parameter [ 0:0] CATCH_ILLINSN = 1,
 	parameter [ 0:0] ENABLE_PCPI = 0,
 	parameter [ 0:0] ENABLE_MUL = 0,
 	parameter [ 0:0] ENABLE_DIV = 0,
 	parameter [ 0:0] ENABLE_IRQ = 0,
 	parameter [ 0:0] ENABLE_IRQ_QREGS = 1,
 	parameter [ 0:0] ENABLE_IRQ_TIMER = 1,
@ -1662,6 +1777,7 @@ module picorv32_axi #(
 		.CATCH_ILLINSN       (CATCH_ILLINSN       ),
 		.ENABLE_PCPI         (ENABLE_PCPI         ),
 		.ENABLE_MUL          (ENABLE_MUL          ),
 		.ENABLE_DIV          (ENABLE_DIV          ),
 		.ENABLE_IRQ          (ENABLE_IRQ          ),
 		.ENABLE_IRQ_QREGS    (ENABLE_IRQ_QREGS    ),
 		.ENABLE_IRQ_TIMER    (ENABLE_IRQ_TIMER    ),
--- a/testbench.v
+++ b/testbench.v
@ -118,6 +118,7 @@ module picorv32_wrapper #(
 		.COMPRESSED_ISA(1),
 `endif
 		.ENABLE_MUL(1),
 		.ENABLE_DIV(1),
 		.ENABLE_IRQ(1)
 	) uut (
 		.clk            (clk            ),
--- a/tests/div.S
+++ b/tests/div.S
@ -0,0 +1,41 @@
 # See LICENSE for license details.
 #*****************************************************************************
 # div.S
 #-----------------------------------------------------------------------------
 #
 # Test div instruction.
 #
 #include "riscv_test.h"
 #include "test_macros.h"
 RVTEST_RV32U
 RVTEST_CODE_BEGIN
  #-------------------------------------------------------------
  # Arithmetic tests
  #-------------------------------------------------------------
  TEST_RR_OP( 2, div,  3,  20,   6 );
  TEST_RR_OP( 3, div, -3, -20,   6 );
  TEST_RR_OP( 4, div, -3,  20,  -6 );
  TEST_RR_OP( 5, div,  3, -20,  -6 );
  TEST_RR_OP( 6, div, -1<<63, -1<<63,  1 );
  TEST_RR_OP( 7, div, -1<<63, -1<<63, -1 );
  TEST_RR_OP( 8, div, -1, -1<<63, 0 );
  TEST_RR_OP( 9, div, -1,      1, 0 );
  TEST_RR_OP(10, div, -1,      0, 0 );
  TEST_PASSFAIL
 RVTEST_CODE_END
  .data
 RVTEST_DATA_BEGIN
  TEST_DATA
 RVTEST_DATA_END
--- a/tests/divu.S
+++ b/tests/divu.S
@ -0,0 +1,41 @@
 # See LICENSE for license details.
 #*****************************************************************************
 # divu.S
 #-----------------------------------------------------------------------------
 #
 # Test divu instruction.
 #
 #include "riscv_test.h"
 #include "test_macros.h"
 RVTEST_RV32U
 RVTEST_CODE_BEGIN
  #-------------------------------------------------------------
  # Arithmetic tests
  #-------------------------------------------------------------
  TEST_RR_OP( 2, divu,                   3,  20,   6 );
  TEST_RR_OP( 3, divu,           715827879, -20,   6 );
  TEST_RR_OP( 4, divu,                   0,  20,  -6 );
  TEST_RR_OP( 5, divu,                   0, -20,  -6 );
  TEST_RR_OP( 6, divu, -1<<31, -1<<31,  1 );
  TEST_RR_OP( 7, divu,     0,  -1<<31, -1 );
  TEST_RR_OP( 8, divu, -1, -1<<31, 0 );
  TEST_RR_OP( 9, divu, -1,      1, 0 );
  TEST_RR_OP(10, divu, -1,      0, 0 );
  TEST_PASSFAIL
 RVTEST_CODE_END
  .data
 RVTEST_DATA_BEGIN
  TEST_DATA
 RVTEST_DATA_END
--- a/tests/rem.S
+++ b/tests/rem.S
@ -0,0 +1,41 @@
 # See LICENSE for license details.
 #*****************************************************************************
 # rem.S
 #-----------------------------------------------------------------------------
 #
 # Test rem instruction.
 #
 #include "riscv_test.h"
 #include "test_macros.h"
 RVTEST_RV32U
 RVTEST_CODE_BEGIN
  #-------------------------------------------------------------
  # Arithmetic tests
  #-------------------------------------------------------------
  TEST_RR_OP( 2, rem,  2,  20,   6 );
  TEST_RR_OP( 3, rem, -2, -20,   6 );
  TEST_RR_OP( 4, rem,  2,  20,  -6 );
  TEST_RR_OP( 5, rem, -2, -20,  -6 );
  TEST_RR_OP( 6, rem,  0, -1<<63,  1 );
  TEST_RR_OP( 7, rem,  0, -1<<63, -1 );
  TEST_RR_OP( 8, rem, -1<<63, -1<<63, 0 );
  TEST_RR_OP( 9, rem,      1,      1, 0 );
  TEST_RR_OP(10, rem,      0,      0, 0 );
  TEST_PASSFAIL
 RVTEST_CODE_END
  .data
 RVTEST_DATA_BEGIN
  TEST_DATA
 RVTEST_DATA_END
--- a/tests/remu.S
+++ b/tests/remu.S
@ -0,0 +1,41 @@
 # See LICENSE for license details.
 #*****************************************************************************
 # remu.S
 #-----------------------------------------------------------------------------
 #
 # Test remu instruction.
 #
 #include "riscv_test.h"
 #include "test_macros.h"
 RVTEST_RV32U
 RVTEST_CODE_BEGIN
  #-------------------------------------------------------------
  # Arithmetic tests
  #-------------------------------------------------------------
  TEST_RR_OP( 2, remu,   2,  20,   6 );
  TEST_RR_OP( 3, remu,   2, -20,   6 );
  TEST_RR_OP( 4, remu,  20,  20,  -6 );
  TEST_RR_OP( 5, remu, -20, -20,  -6 );
  TEST_RR_OP( 6, remu,      0, -1<<63,  1 );
  TEST_RR_OP( 7, remu, -1<<63, -1<<63, -1 );
  TEST_RR_OP( 8, remu, -1<<63, -1<<63, 0 );
  TEST_RR_OP( 9, remu,      1,      1, 0 );
  TEST_RR_OP(10, remu,      0,      0, 0 );
  TEST_PASSFAIL
 RVTEST_CODE_END
  .data
 RVTEST_DATA_BEGIN
  TEST_DATA
 RVTEST_DATA_END