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rehayes |
////////////////////////////////////////////////////////////////////////////////
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//
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// WISHBONE revB.2 compliant Computer Operating Properly - Bus interface
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//
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// Author: Bob Hayes
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// rehayes@opencores.org
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//
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// Downloaded from: http://www.opencores.org/projects/cop.....
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//
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////////////////////////////////////////////////////////////////////////////////
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// Copyright (c) 2009, Robert Hayes
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//
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// All rights reserved.
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are met:
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above copyright
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// notice, this list of conditions and the following disclaimer in the
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// documentation and/or other materials provided with the distribution.
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// * Neither the name of the <organization> nor the
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// names of its contributors may be used to endorse or promote products
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// derived from this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY Robert Hayes ''AS IS'' AND ANY
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// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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// WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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// DISCLAIMED. IN NO EVENT SHALL Robert Hayes BE LIABLE FOR ANY
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// DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
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// ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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////////////////////////////////////////////////////////////////////////////////
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// 45678901234567890123456789012345678901234567890123456789012345678901234567890
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module cop_wb_bus #(parameter ARST_LVL = 1'b0, // asynchronous reset level
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parameter DWIDTH = 16,
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parameter SINGLE_CYCLE = 1'b0)
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(
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// Wishbone Signals
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output [DWIDTH-1:0] wb_dat_o, // databus output
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output wb_ack_o, // bus cycle acknowledge output
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input wb_clk_i, // master clock input
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input wb_rst_i, // synchronous active high reset
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input arst_i, // asynchronous reset
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input [ 2:0] wb_adr_i, // lower address bits
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input [DWIDTH-1:0] wb_dat_i, // databus input
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input wb_we_i, // write enable input
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input wb_stb_i, // stobe/core select signal
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input wb_cyc_i, // valid bus cycle input
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input [1:0] wb_sel_i, // Select byte in word bus transaction
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// COP Control Signals
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output reg [ 4:0] write_regs, // Decode write control register
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output async_rst_b, //
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output sync_reset, //
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input irq_source, //
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input [47:0] read_regs // status register bits
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);
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// registers
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reg bus_wait_state; // Holdoff wb_ack_o for one clock to add wait state
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reg [DWIDTH-1:0] rd_data_mux; // Pseudo Register, WISHBONE Read Data Mux
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reg [DWIDTH-1:0] rd_data_reg; // Latch for WISHBONE Read Data
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// Wires
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wire eight_bit_bus;
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wire module_sel; // This module is selected for bus transaction
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wire wb_wacc; // WISHBONE Write Strobe (Clock gating signal)
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wire wb_racc; // WISHBONE Read Access (Clock gating signal)
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//
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// module body
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//
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// generate internal resets
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assign eight_bit_bus = (DWIDTH == 8);
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assign async_rst_b = arst_i ^ ARST_LVL;
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assign sync_reset = wb_rst_i;
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// generate wishbone signals
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assign module_sel = wb_cyc_i && wb_stb_i;
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assign wb_wacc = module_sel && wb_we_i && (wb_ack_o || SINGLE_CYCLE);
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assign wb_racc = module_sel && !wb_we_i;
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assign wb_ack_o = SINGLE_CYCLE ? module_sel : bus_wait_state;
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assign wb_dat_o = SINGLE_CYCLE ? rd_data_mux : rd_data_reg;
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// generate acknowledge output signal, By using register all accesses takes two cycles.
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// Accesses in back to back clock cycles are not possable.
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always @(posedge wb_clk_i or negedge async_rst_b)
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if (!async_rst_b)
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bus_wait_state <= 1'b0;
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else if (sync_reset)
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bus_wait_state <= 1'b0;
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else
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bus_wait_state <= module_sel && !bus_wait_state;
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// assign data read bus -- DAT_O
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always @(posedge wb_clk_i)
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if ( wb_racc ) // Clock gate for power saving
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rd_data_reg <= rd_data_mux;
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// WISHBONE Read Data Mux
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always @*
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case ({eight_bit_bus, wb_adr_i}) // synopsys parallel_case
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// 8 bit Bus, 8 bit Granularity
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4'b1_000: rd_data_mux = read_regs[ 7: 0]; // 8 bit read address 0
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4'b1_001: rd_data_mux = read_regs[15: 8]; // 8 bit read address 1
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4'b1_010: rd_data_mux = read_regs[23:16]; // 8 bit read address 2
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4'b1_011: rd_data_mux = read_regs[31:24]; // 8 bit read address 3
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4'b1_100: rd_data_mux = read_regs[39:32]; // 8 bit read address 4
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4'b1_101: rd_data_mux = read_regs[47:40]; // 8 bit read address 5
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// 16 bit Bus, 16 bit Granularity
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4'b0_000: rd_data_mux = read_regs[15: 0]; // 16 bit read access address 0
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4'b0_001: rd_data_mux = read_regs[31:16];
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4'b0_010: rd_data_mux = read_regs[47:32];
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endcase
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// generate wishbone write register strobes -- one hot if 8 bit bus
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// two hot if 16 bit bus
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always @*
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begin
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write_regs = 0;
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if (wb_wacc)
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case ({eight_bit_bus, wb_adr_i}) // synopsys parallel_case
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// 8 bit Bus, 8 bit Granularity
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5'b1_000 : write_regs = 5'b00001;
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5'b1_001 : write_regs = 5'b00010;
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5'b1_010 : write_regs = 5'b00100;
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5'b1_011 : write_regs = 5'b01000;
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5'b1_100 : write_regs = 5'b10000;
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// 16 bit Bus, 16 bit Granularity
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5'b0_000 : write_regs = 5'b00011;
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5'b0_001 : write_regs = 5'b01100;
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5'b0_010 : write_regs = 5'b10000;
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default: ;
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endcase
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end
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endmodule // cop_wb_bus
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