//-----------------------------------------------------------------
|
//-----------------------------------------------------------------
|
// AltOR32
|
// AltOR32
|
// Alternative Lightweight OpenRisc
|
// Alternative Lightweight OpenRisc
|
// V2.0
|
// V2.1
|
// Ultra-Embedded.com
|
// Ultra-Embedded.com
|
// Copyright 2011 - 2013
|
// Copyright 2011 - 2014
|
//
|
//
|
// Email: admin@ultra-embedded.com
|
// Email: admin@ultra-embedded.com
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//
|
//
|
// License: LGPL
|
// License: LGPL
|
//-----------------------------------------------------------------
|
//-----------------------------------------------------------------
|
//
|
//
|
// Copyright (C) 2011 - 2013 Ultra-Embedded.com
|
// Copyright (C) 2011 - 2013 Ultra-Embedded.com
|
//
|
//
|
// This source file may be used and distributed without
|
// This source file may be used and distributed without
|
// restriction provided that this copyright statement is not
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// restriction provided that this copyright statement is not
|
// removed from the file and that any derivative work contains
|
// removed from the file and that any derivative work contains
|
// the original copyright notice and the associated disclaimer.
|
// the original copyright notice and the associated disclaimer.
|
//
|
//
|
// This source file is free software; you can redistribute it
|
// This source file is free software; you can redistribute it
|
// and/or modify it under the terms of the GNU Lesser General
|
// and/or modify it under the terms of the GNU Lesser General
|
// Public License as published by the Free Software Foundation;
|
// Public License as published by the Free Software Foundation;
|
// either version 2.1 of the License, or (at your option) any
|
// either version 2.1 of the License, or (at your option) any
|
// later version.
|
// later version.
|
//
|
//
|
// This source is distributed in the hope that it will be
|
// This source is distributed in the hope that it will be
|
// useful, but WITHOUT ANY WARRANTY; without even the implied
|
// useful, but WITHOUT ANY WARRANTY; without even the implied
|
// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
|
// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
|
// PURPOSE. See the GNU Lesser General Public License for more
|
// PURPOSE. See the GNU Lesser General Public License for more
|
// details.
|
// details.
|
//
|
//
|
// You should have received a copy of the GNU Lesser General
|
// You should have received a copy of the GNU Lesser General
|
// Public License along with this source; if not, write to the
|
// Public License along with this source; if not, write to the
|
// Free Software Foundation, Inc., 59 Temple Place, Suite 330,
|
// Free Software Foundation, Inc., 59 Temple Place, Suite 330,
|
// Boston, MA 02111-1307 USA
|
// Boston, MA 02111-1307 USA
|
//-----------------------------------------------------------------
|
//-----------------------------------------------------------------
|
|
|
//-----------------------------------------------------------------
|
//-----------------------------------------------------------------
|
// Includes
|
// Includes
|
//-----------------------------------------------------------------
|
//-----------------------------------------------------------------
|
`include "altor32_defs.v"
|
`include "altor32_defs.v"
|
|
|
//-----------------------------------------------------------------
|
//-----------------------------------------------------------------
|
// Module - AltOR32 CPU (Pipelined Wishbone Interfaces)
|
// Module - AltOR32 CPU (Pipelined Wishbone Interfaces)
|
//-----------------------------------------------------------------
|
//-----------------------------------------------------------------
|
module cpu
|
module cpu
|
(
|
(
|
// General
|
// General
|
input clk_i /*verilator public*/,
|
input clk_i /*verilator public*/,
|
input rst_i /*verilator public*/,
|
input rst_i /*verilator public*/,
|
|
|
input intr_i /*verilator public*/,
|
input intr_i /*verilator public*/,
|
input nmi_i /*verilator public*/,
|
input nmi_i /*verilator public*/,
|
output fault_o /*verilator public*/,
|
output fault_o /*verilator public*/,
|
output break_o /*verilator public*/,
|
output break_o /*verilator public*/,
|
|
|
// Instruction memory
|
// Instruction memory
|
output [31:0] imem_addr_o /*verilator public*/,
|
output [31:0] imem_addr_o /*verilator public*/,
|
input [31:0] imem_dat_i /*verilator public*/,
|
input [31:0] imem_dat_i /*verilator public*/,
|
output [2:0] imem_cti_o /*verilator public*/,
|
output [2:0] imem_cti_o /*verilator public*/,
|
output imem_cyc_o /*verilator public*/,
|
output imem_cyc_o /*verilator public*/,
|
output imem_stb_o /*verilator public*/,
|
output imem_stb_o /*verilator public*/,
|
input imem_stall_i/*verilator public*/,
|
input imem_stall_i/*verilator public*/,
|
input imem_ack_i/*verilator public*/,
|
input imem_ack_i/*verilator public*/,
|
|
|
// Data memory
|
// Data memory
|
output [31:0] dmem_addr_o /*verilator public*/,
|
output [31:0] dmem_addr_o /*verilator public*/,
|
output [31:0] dmem_dat_o /*verilator public*/,
|
output [31:0] dmem_dat_o /*verilator public*/,
|
input [31:0] dmem_dat_i /*verilator public*/,
|
input [31:0] dmem_dat_i /*verilator public*/,
|
output [3:0] dmem_sel_o /*verilator public*/,
|
output [3:0] dmem_sel_o /*verilator public*/,
|
output [2:0] dmem_cti_o /*verilator public*/,
|
output [2:0] dmem_cti_o /*verilator public*/,
|
output dmem_cyc_o /*verilator public*/,
|
output dmem_cyc_o /*verilator public*/,
|
output dmem_we_o /*verilator public*/,
|
output dmem_we_o /*verilator public*/,
|
output dmem_stb_o /*verilator public*/,
|
output dmem_stb_o /*verilator public*/,
|
input dmem_stall_i/*verilator public*/,
|
input dmem_stall_i/*verilator public*/,
|
input dmem_ack_i/*verilator public*/
|
input dmem_ack_i/*verilator public*/
|
);
|
);
|
|
|
//-----------------------------------------------------------------
|
//-----------------------------------------------------------------
|
// Params
|
// Params
|
//-----------------------------------------------------------------
|
//-----------------------------------------------------------------
|
parameter BOOT_VECTOR = 32'h00000000;
|
parameter BOOT_VECTOR = 32'h00000000;
|
parameter ISR_VECTOR = 32'h00000000;
|
parameter ISR_VECTOR = 32'h00000000;
|
parameter REGISTER_FILE_TYPE = "SIMULATION";
|
parameter REGISTER_FILE_TYPE = "SIMULATION";
|
parameter ENABLE_ICACHE = "ENABLED";
|
parameter ENABLE_ICACHE = "ENABLED";
|
parameter ENABLE_DCACHE = "DISABLED";
|
parameter ENABLE_DCACHE = "DISABLED";
|
parameter SUPPORT_32REGS = "ENABLED";
|
parameter SUPPORT_32REGS = "ENABLED";
|
|
parameter PIPELINED_FETCH = "ENABLED";
|
|
|
//-----------------------------------------------------------------
|
//-----------------------------------------------------------------
|
// Registers / Wires
|
// Registers / Wires
|
//-----------------------------------------------------------------
|
//-----------------------------------------------------------------
|
|
|
// Register number (rA)
|
// Register number (rA)
|
wire [4:0] w_ra;
|
wire [4:0] w_ra;
|
|
|
// Register number (rB)
|
// Register number (rB)
|
wire [4:0] w_rb;
|
wire [4:0] w_rb;
|
|
|
// Destination register number (pre execute stage)
|
// Destination register number (pre execute stage)
|
wire [4:0] w_rd;
|
wire [4:0] w_rd;
|
|
|
// Destination register number (post execute stage)
|
// Destination register number (post execute stage)
|
wire [4:0] w_e_rd;
|
wire [4:0] w_e_rd;
|
|
|
// Register value (rA)
|
// Register value (rA)
|
wire [31:0] w_reg_ra;
|
wire [31:0] w_reg_ra;
|
|
|
// Register value (rB)
|
// Register value (rB)
|
wire [31:0] w_reg_rb;
|
wire [31:0] w_reg_rb;
|
|
|
// Current opcode
|
// Current opcode
|
wire [31:0] w_d_opcode;
|
wire [31:0] w_d_opcode;
|
wire [31:0] w_d_pc;
|
wire [31:0] w_d_pc;
|
wire w_d_valid;
|
wire w_d_valid;
|
|
|
wire [31:0] w_e_opcode;
|
wire [31:0] w_e_opcode;
|
|
|
// Register writeback value
|
// Register writeback value
|
wire [4:0] w_wb_rd;
|
wire [4:0] w_wb_rd;
|
wire [31:0] w_wb_reg_rd;
|
wire [31:0] w_wb_reg_rd;
|
|
|
// Register writeback enable
|
// Register writeback enable
|
wire w_wb_write_rd;
|
wire w_wb_write_rd;
|
|
|
// Result from execute
|
// Result from execute
|
wire [31:0] w_e_result;
|
wire [31:0] w_e_result;
|
wire w_e_mult;
|
wire w_e_mult;
|
wire [31:0] w_e_mult_result;
|
wire [31:0] w_e_mult_result;
|
|
|
// Branch request
|
// Branch request
|
wire w_e_branch;
|
wire w_e_branch;
|
wire [31:0] w_e_branch_pc;
|
wire [31:0] w_e_branch_pc;
|
wire w_e_stall;
|
wire w_e_stall;
|
|
|
wire icache_rd;
|
wire icache_rd;
|
wire [31:0] icache_pc;
|
wire [31:0] icache_pc;
|
wire [31:0] icache_inst;
|
wire [31:0] icache_inst;
|
wire icache_miss;
|
|
wire icache_valid;
|
wire icache_valid;
|
wire icache_busy;
|
|
wire icache_invalidate;
|
wire icache_invalidate;
|
|
|
wire [31:0] dcache_addr;
|
wire [31:0] dcache_addr;
|
wire [31:0] dcache_data_o;
|
wire [31:0] dcache_data_o;
|
wire [31:0] dcache_data_i;
|
wire [31:0] dcache_data_i;
|
wire [3:0] dcache_sel;
|
wire [3:0] dcache_sel;
|
wire dcache_we;
|
wire dcache_we;
|
wire dcache_stb;
|
wire dcache_stb;
|
wire dcache_cyc;
|
wire dcache_cyc;
|
wire dcache_ack;
|
wire dcache_ack;
|
wire dcache_stall;
|
wire dcache_stall;
|
wire dcache_flush;
|
wire dcache_flush;
|
|
|
//-----------------------------------------------------------------
|
//-----------------------------------------------------------------
|
// Instantiation
|
// Instantiation
|
//-----------------------------------------------------------------
|
//-----------------------------------------------------------------
|
|
|
// Instruction Cache
|
// Instruction Cache
|
generate
|
generate
|
if (ENABLE_ICACHE == "ENABLED")
|
if (ENABLE_ICACHE == "ENABLED")
|
begin : ICACHE
|
begin : ICACHE
|
// Instruction cache
|
// Instruction cache
|
altor32_icache
|
altor32_icache
|
#(
|
#(
|
.BOOT_VECTOR(BOOT_VECTOR)
|
.BOOT_VECTOR(BOOT_VECTOR)
|
)
|
)
|
u_icache
|
u_icache
|
(
|
(
|
.clk_i(clk_i),
|
.clk_i(clk_i),
|
.rst_i(rst_i),
|
.rst_i(rst_i),
|
|
|
// Processor interface
|
// Processor interface
|
.rd_i(icache_rd),
|
.rd_i(icache_rd),
|
.pc_i(icache_pc),
|
.pc_i(icache_pc),
|
.instruction_o(icache_inst),
|
.instruction_o(icache_inst),
|
.valid_o(icache_valid),
|
.valid_o(icache_valid),
|
.invalidate_i(icache_invalidate),
|
.invalidate_i(icache_invalidate),
|
|
|
// Status
|
|
.miss_o(icache_miss),
|
|
.busy_o(icache_busy),
|
|
|
|
// Instruction memory
|
// Instruction memory
|
.wbm_addr_o(imem_addr_o),
|
.wbm_addr_o(imem_addr_o),
|
.wbm_dat_i(imem_dat_i),
|
.wbm_dat_i(imem_dat_i),
|
.wbm_cti_o(imem_cti_o),
|
.wbm_cti_o(imem_cti_o),
|
.wbm_cyc_o(imem_cyc_o),
|
.wbm_cyc_o(imem_cyc_o),
|
.wbm_stb_o(imem_stb_o),
|
.wbm_stb_o(imem_stb_o),
|
.wbm_stall_i(imem_stall_i),
|
.wbm_stall_i(imem_stall_i),
|
.wbm_ack_i(imem_ack_i)
|
.wbm_ack_i(imem_ack_i)
|
);
|
);
|
end
|
end
|
else
|
else
|
begin : NO_ICACHE
|
begin : NO_ICACHE
|
// No instruction cache
|
// No instruction cache
|
altor32_noicache
|
altor32_noicache
|
u_icache
|
u_icache
|
(
|
(
|
.clk_i(clk_i),
|
.clk_i(clk_i),
|
.rst_i(rst_i),
|
.rst_i(rst_i),
|
|
|
// Processor interface
|
// Processor interface
|
.rd_i(icache_rd),
|
.rd_i(icache_rd),
|
.pc_i(icache_pc),
|
.pc_i(icache_pc),
|
.instruction_o(icache_inst),
|
.instruction_o(icache_inst),
|
.valid_o(icache_valid),
|
.valid_o(icache_valid),
|
|
.invalidate_i(icache_invalidate),
|
|
|
// Instruction memory
|
// Instruction memory
|
.wbm_addr_o(imem_addr_o),
|
.wbm_addr_o(imem_addr_o),
|
.wbm_dat_i(imem_dat_i),
|
.wbm_dat_i(imem_dat_i),
|
.wbm_cti_o(imem_cti_o),
|
.wbm_cti_o(imem_cti_o),
|
.wbm_cyc_o(imem_cyc_o),
|
.wbm_cyc_o(imem_cyc_o),
|
.wbm_stb_o(imem_stb_o),
|
.wbm_stb_o(imem_stb_o),
|
.wbm_stall_i(imem_stall_i),
|
.wbm_stall_i(imem_stall_i),
|
.wbm_ack_i(imem_ack_i)
|
.wbm_ack_i(imem_ack_i)
|
);
|
);
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
// Instruction Fetch
|
// Instruction Fetch
|
altor32_fetch
|
altor32_fetch
|
#(
|
#(
|
.BOOT_VECTOR(BOOT_VECTOR)
|
.BOOT_VECTOR(BOOT_VECTOR),
|
|
.PIPELINED_FETCH(PIPELINED_FETCH)
|
)
|
)
|
u_fetch
|
u_fetch
|
(
|
(
|
// General
|
// General
|
.clk_i(clk_i),
|
.clk_i(clk_i),
|
.rst_i(rst_i),
|
.rst_i(rst_i),
|
|
|
// Instruction memory
|
// Instruction memory
|
.pc_o(icache_pc),
|
.pc_o(icache_pc),
|
.data_i(icache_inst),
|
.data_i(icache_inst),
|
.fetch_o(icache_rd),
|
.fetch_o(icache_rd),
|
.data_valid_i(icache_valid),
|
.data_valid_i(icache_valid),
|
|
|
// Fetched opcode
|
// Fetched opcode
|
.opcode_o(w_d_opcode),
|
.opcode_o(w_d_opcode),
|
.opcode_pc_o(w_d_pc),
|
.opcode_pc_o(w_d_pc),
|
.opcode_valid_o(w_d_valid),
|
.opcode_valid_o(w_d_valid),
|
|
|
// Branch target
|
// Branch target
|
.branch_i(w_e_branch),
|
.branch_i(w_e_branch),
|
.branch_pc_i(w_e_branch_pc),
|
.branch_pc_i(w_e_branch_pc),
|
.stall_i(w_e_stall),
|
.stall_i(w_e_stall),
|
|
|
// Decoded register details
|
// Decoded register details
|
.ra_o(w_ra),
|
.ra_o(w_ra),
|
.rb_o(w_rb),
|
.rb_o(w_rb),
|
.rd_o(w_rd)
|
.rd_o(w_rd)
|
);
|
);
|
|
|
// Register file
|
// Register file
|
generate
|
generate
|
if (REGISTER_FILE_TYPE == "XILINX")
|
if (REGISTER_FILE_TYPE == "XILINX")
|
begin : REGFILE_XIL
|
begin : REGFILE_XIL
|
altor32_regfile_xil
|
altor32_regfile_xil
|
#(
|
#(
|
.SUPPORT_32REGS(SUPPORT_32REGS)
|
.SUPPORT_32REGS(SUPPORT_32REGS)
|
)
|
)
|
reg_bank
|
reg_bank
|
(
|
(
|
// Clocking
|
// Clocking
|
.clk_i(clk_i),
|
.clk_i(clk_i),
|
.rst_i(rst_i),
|
.rst_i(rst_i),
|
.wr_i(w_wb_write_rd),
|
.wr_i(w_wb_write_rd),
|
|
|
// Tri-port
|
// Tri-port
|
.rs_i(w_ra),
|
.rs_i(w_ra),
|
.rt_i(w_rb),
|
.rt_i(w_rb),
|
.rd_i(w_wb_rd),
|
.rd_i(w_wb_rd),
|
.reg_rs_o(w_reg_ra),
|
.reg_rs_o(w_reg_ra),
|
.reg_rt_o(w_reg_rb),
|
.reg_rt_o(w_reg_rb),
|
.reg_rd_i(w_wb_reg_rd)
|
.reg_rd_i(w_wb_reg_rd)
|
);
|
);
|
end
|
end
|
else if (REGISTER_FILE_TYPE == "ALTERA")
|
else if (REGISTER_FILE_TYPE == "ALTERA")
|
begin : REGFILE_ALT
|
begin : REGFILE_ALT
|
altor32_regfile_alt
|
altor32_regfile_alt
|
#(
|
#(
|
.SUPPORT_32REGS(SUPPORT_32REGS)
|
.SUPPORT_32REGS(SUPPORT_32REGS)
|
)
|
)
|
reg_bank
|
reg_bank
|
(
|
(
|
// Clocking
|
// Clocking
|
.clk_i(clk_i),
|
.clk_i(clk_i),
|
.rst_i(rst_i),
|
.rst_i(rst_i),
|
.wr_i(w_wb_write_rd),
|
.wr_i(w_wb_write_rd),
|
|
|
// Tri-port
|
// Tri-port
|
.rs_i(w_ra),
|
.rs_i(w_ra),
|
.rt_i(w_rb),
|
.rt_i(w_rb),
|
.rd_i(w_wb_rd),
|
.rd_i(w_wb_rd),
|
.reg_rs_o(w_reg_ra),
|
.reg_rs_o(w_reg_ra),
|
.reg_rt_o(w_reg_rb),
|
.reg_rt_o(w_reg_rb),
|
.reg_rd_i(w_wb_reg_rd)
|
.reg_rd_i(w_wb_reg_rd)
|
);
|
);
|
end
|
end
|
else
|
else
|
begin : REGFILE_SIM
|
begin : REGFILE_SIM
|
altor32_regfile_sim
|
altor32_regfile_sim
|
#(
|
#(
|
.SUPPORT_32REGS(SUPPORT_32REGS)
|
.SUPPORT_32REGS(SUPPORT_32REGS)
|
)
|
)
|
reg_bank
|
reg_bank
|
(
|
(
|
// Clocking
|
// Clocking
|
.clk_i(clk_i),
|
.clk_i(clk_i),
|
.rst_i(rst_i),
|
.rst_i(rst_i),
|
.wr_i(w_wb_write_rd),
|
.wr_i(w_wb_write_rd),
|
|
|
// Tri-port
|
// Tri-port
|
.rs_i(w_ra),
|
.rs_i(w_ra),
|
.rt_i(w_rb),
|
.rt_i(w_rb),
|
.rd_i(w_wb_rd),
|
.rd_i(w_wb_rd),
|
.reg_rs_o(w_reg_ra),
|
.reg_rs_o(w_reg_ra),
|
.reg_rt_o(w_reg_rb),
|
.reg_rt_o(w_reg_rb),
|
.reg_rd_i(w_wb_reg_rd)
|
.reg_rd_i(w_wb_reg_rd)
|
);
|
);
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
generate
|
generate
|
if (ENABLE_DCACHE == "ENABLED")
|
if (ENABLE_DCACHE == "ENABLED")
|
begin : DCACHE
|
begin : DCACHE
|
// Data cache
|
// Data cache
|
altor32_dcache
|
altor32_dcache
|
u_dcache
|
u_dcache
|
(
|
(
|
.clk_i(clk_i),
|
.clk_i(clk_i),
|
.rst_i(rst_i),
|
.rst_i(rst_i),
|
|
|
.flush_i(dcache_flush),
|
.flush_i(dcache_flush),
|
|
|
// Processor interface
|
// Processor interface
|
.address_i({dcache_addr[31:2], 2'b00}),
|
.address_i({dcache_addr[31:2], 2'b00}),
|
.data_o(dcache_data_i),
|
.data_o(dcache_data_i),
|
.data_i(dcache_data_o),
|
.data_i(dcache_data_o),
|
.we_i(dcache_we),
|
.we_i(dcache_we),
|
.stb_i(dcache_stb),
|
.stb_i(dcache_stb),
|
.sel_i(dcache_sel),
|
.sel_i(dcache_sel),
|
.stall_o(dcache_stall),
|
.stall_o(dcache_stall),
|
.ack_o(dcache_ack),
|
.ack_o(dcache_ack),
|
|
|
// Memory interface (slave)
|
// Memory interface (slave)
|
.mem_addr_o(dmem_addr_o),
|
.mem_addr_o(dmem_addr_o),
|
.mem_data_i(dmem_dat_i),
|
.mem_data_i(dmem_dat_i),
|
.mem_data_o(dmem_dat_o),
|
.mem_data_o(dmem_dat_o),
|
.mem_sel_o(dmem_sel_o),
|
.mem_sel_o(dmem_sel_o),
|
.mem_we_o(dmem_we_o),
|
.mem_we_o(dmem_we_o),
|
.mem_stb_o(dmem_stb_o),
|
.mem_stb_o(dmem_stb_o),
|
.mem_cyc_o(dmem_cyc_o),
|
.mem_cyc_o(dmem_cyc_o),
|
.mem_cti_o(dmem_cti_o),
|
.mem_cti_o(dmem_cti_o),
|
.mem_stall_i(dmem_stall_i),
|
.mem_stall_i(dmem_stall_i),
|
.mem_ack_i(dmem_ack_i)
|
.mem_ack_i(dmem_ack_i)
|
);
|
);
|
end
|
end
|
else
|
else
|
begin: NO_DCACHE
|
begin: NO_DCACHE
|
|
|
// No data cache
|
// No data cache
|
assign dmem_addr_o = {dcache_addr[31:2], 2'b00};
|
assign dmem_addr_o = {dcache_addr[31:2], 2'b00};
|
assign dmem_dat_o = dcache_data_o;
|
assign dmem_dat_o = dcache_data_o;
|
assign dcache_data_i = dmem_dat_i;
|
assign dcache_data_i = dmem_dat_i;
|
assign dmem_sel_o = dcache_sel;
|
assign dmem_sel_o = dcache_sel;
|
assign dmem_cyc_o = dcache_cyc;
|
assign dmem_cyc_o = dcache_cyc;
|
assign dmem_we_o = dcache_we;
|
assign dmem_we_o = dcache_we;
|
assign dmem_stb_o = dcache_stb;
|
assign dmem_stb_o = dcache_stb;
|
assign dmem_cti_o = 3'b111;
|
assign dmem_cti_o = 3'b111;
|
assign dcache_ack = dmem_ack_i;
|
assign dcache_ack = dmem_ack_i;
|
assign dcache_stall = dmem_stall_i;
|
assign dcache_stall = dmem_stall_i;
|
end
|
end
|
endgenerate
|
endgenerate
|
|
|
// Execution unit
|
// Execution unit
|
altor32_exec
|
altor32_exec
|
#(
|
#(
|
.BOOT_VECTOR(BOOT_VECTOR),
|
.BOOT_VECTOR(BOOT_VECTOR),
|
.ISR_VECTOR(ISR_VECTOR)
|
.ISR_VECTOR(ISR_VECTOR)
|
)
|
)
|
u_exec
|
u_exec
|
(
|
(
|
// General
|
// General
|
.clk_i(clk_i),
|
.clk_i(clk_i),
|
.rst_i(rst_i),
|
.rst_i(rst_i),
|
|
|
.intr_i(intr_i),
|
.intr_i(intr_i),
|
.nmi_i(nmi_i),
|
.nmi_i(nmi_i),
|
|
|
// Status
|
// Status
|
.fault_o(fault_o),
|
.fault_o(fault_o),
|
.break_o(break_o),
|
.break_o(break_o),
|
|
|
// Cache control
|
// Cache control
|
.icache_flush_o(icache_invalidate),
|
.icache_flush_o(icache_invalidate),
|
.dcache_flush_o(dcache_flush),
|
.dcache_flush_o(dcache_flush),
|
|
|
// Branch target
|
// Branch target
|
.branch_o(w_e_branch),
|
.branch_o(w_e_branch),
|
.branch_pc_o(w_e_branch_pc),
|
.branch_pc_o(w_e_branch_pc),
|
.stall_o(w_e_stall),
|
.stall_o(w_e_stall),
|
|
|
// Opcode & arguments
|
// Opcode & arguments
|
.opcode_i(w_d_opcode),
|
.opcode_i(w_d_opcode),
|
.opcode_pc_i(w_d_pc),
|
.opcode_pc_i(w_d_pc),
|
.opcode_valid_i(w_d_valid),
|
.opcode_valid_i(w_d_valid),
|
|
|
.reg_ra_i(w_ra),
|
.reg_ra_i(w_ra),
|
.reg_ra_value_i(w_reg_ra),
|
.reg_ra_value_i(w_reg_ra),
|
|
|
.reg_rb_i(w_rb),
|
.reg_rb_i(w_rb),
|
.reg_rb_value_i(w_reg_rb),
|
.reg_rb_value_i(w_reg_rb),
|
|
|
.reg_rd_i(w_rd),
|
.reg_rd_i(w_rd),
|
|
|
// Output
|
// Output
|
.opcode_o(w_e_opcode),
|
.opcode_o(w_e_opcode),
|
.reg_rd_o(w_e_rd),
|
.reg_rd_o(w_e_rd),
|
.reg_rd_value_o(w_e_result),
|
.reg_rd_value_o(w_e_result),
|
.mult_o(w_e_mult),
|
.mult_o(w_e_mult),
|
.mult_res_o(w_e_mult_result),
|
.mult_res_o(w_e_mult_result),
|
|
|
// Register write back bypass
|
// Register write back bypass
|
.wb_rd_i(w_wb_rd),
|
.wb_rd_i(w_wb_rd),
|
.wb_rd_value_i(w_wb_reg_rd),
|
.wb_rd_value_i(w_wb_reg_rd),
|
|
|
// Memory Interface
|
// Memory Interface
|
.dmem_addr_o(dcache_addr),
|
.dmem_addr_o(dcache_addr),
|
.dmem_data_out_o(dcache_data_o),
|
.dmem_data_out_o(dcache_data_o),
|
.dmem_data_in_i(dcache_data_i),
|
.dmem_data_in_i(dcache_data_i),
|
.dmem_sel_o(dcache_sel),
|
.dmem_sel_o(dcache_sel),
|
.dmem_we_o(dcache_we),
|
.dmem_we_o(dcache_we),
|
.dmem_stb_o(dcache_stb),
|
.dmem_stb_o(dcache_stb),
|
.dmem_cyc_o(dcache_cyc),
|
.dmem_cyc_o(dcache_cyc),
|
.dmem_stall_i(dcache_stall),
|
.dmem_stall_i(dcache_stall),
|
.dmem_ack_i(dcache_ack)
|
.dmem_ack_i(dcache_ack)
|
);
|
);
|
|
|
// Register file writeback
|
// Register file writeback
|
altor32_writeback
|
altor32_writeback
|
u_wb
|
u_wb
|
(
|
(
|
// General
|
// General
|
.clk_i(clk_i),
|
.clk_i(clk_i),
|
.rst_i(rst_i),
|
.rst_i(rst_i),
|
|
|
// Opcode
|
// Opcode
|
.opcode_i(w_e_opcode),
|
.opcode_i(w_e_opcode),
|
|
|
// Register target
|
// Register target
|
.rd_i(w_e_rd),
|
.rd_i(w_e_rd),
|
|
|
// ALU result
|
// ALU result
|
.alu_result_i(w_e_result),
|
.alu_result_i(w_e_result),
|
|
|
// Memory load result
|
// Memory load result
|
.mem_result_i(dcache_data_i),
|
.mem_result_i(dcache_data_i),
|
.mem_offset_i(dcache_addr[1:0]),
|
.mem_offset_i(dcache_addr[1:0]),
|
.mem_ready_i(dcache_ack),
|
.mem_ready_i(dcache_ack),
|
|
|
// Multiplier result
|
// Multiplier result
|
.mult_i(w_e_mult),
|
.mult_i(w_e_mult),
|
.mult_result_i(w_e_mult_result),
|
.mult_result_i(w_e_mult_result),
|
|
|
// Outputs
|
// Outputs
|
.write_enable_o(w_wb_write_rd),
|
.write_enable_o(w_wb_write_rd),
|
.write_addr_o(w_wb_rd),
|
.write_addr_o(w_wb_rd),
|
.write_data_o(w_wb_reg_rd)
|
.write_data_o(w_wb_reg_rd)
|
);
|
);
|
|
|
//-------------------------------------------------------------------
|
//-------------------------------------------------------------------
|
// Hooks for debug
|
// Hooks for debug
|
//-------------------------------------------------------------------
|
//-------------------------------------------------------------------
|
`ifdef verilator
|
`ifdef verilator
|
function [31:0] get_pc;
|
function [31:0] get_pc;
|
// verilator public
|
// verilator public
|
get_pc = w_d_pc;
|
get_pc = w_d_pc;
|
endfunction
|
endfunction
|
function get_fault;
|
function get_fault;
|
// verilator public
|
// verilator public
|
get_fault = fault_o;
|
get_fault = fault_o;
|
endfunction
|
endfunction
|
function get_break;
|
function get_break;
|
// verilator public
|
// verilator public
|
get_break = break_o;
|
get_break = break_o;
|
endfunction
|
endfunction
|
`endif
|
`endif
|
|
|
endmodule
|
endmodule
|
|
|