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[/] [hive/] [trunk/] [v01.09/] [reg_set_shim.v] - Rev 3
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/* -------------------------------------------------------------------------------- Module: reg_set_shim.v Function: - Shim to interface main memory and internal register set. Instantiates: - (2x) vector_sr.v Notes: - Address, data, and control I/O optionally registered. - Register set is placed at the top of memory space, main mem at bottom. -------------------------------------------------------------------------------- */ module reg_set_shim #( parameter integer REGS_IN = 1, // register option for inputs parameter integer REGS_OUT = 1, // register option for outputs parameter integer DATA_W = 16, // data width (bits) parameter integer ADDR_W = 8, // address width (bits) parameter integer REG_ADDR_W = 4, // register set address width (bits) parameter integer IM_ADDR_W = 4 // immediate address width ) ( // clocks & resets input wire clk_i, // clock input wire rst_i, // async. reset, active high // data I/O input wire [DATA_W-1:0] a_i, // operand input wire ext_i, // 1=extended result output wire [DATA_W/2-1:0] wr_data_o, // write data // address I/O input wire [DATA_W/2-1:0] b_lo_i, // operand input wire [IM_ADDR_W-1:0] im_addr_i, // immediate address input wire [ADDR_W-1:0] pc_1_i, // program counter output wire [ADDR_W-1:0] addr_o, // address // bus I/O input wire wr_i, // data write enable, active high input wire rd_i, // data read enable, active high output wire regs_wr_o, // data write enable, active high output wire regs_rd_o, // data read enable, active high output wire dm_wr_o // data write enable, active high ); /* ---------------------- -- internal signals -- ---------------------- */ wire [DATA_W-1:0] a; wire [DATA_W/2-1:0] b_lo; wire [IM_ADDR_W-1:0] im_addr; wire wr, rd, ext; wire [ADDR_W-1:0] rw_addr, addr; wire regs_en, regs_wr, regs_rd, dm_wr; wire [DATA_W/2-1:0] wr_data; /* ================ == code start == ================ */ // optional input regs vector_sr #( .REGS ( REGS_IN ), .DATA_W ( DATA_W+DATA_W/2+IM_ADDR_W+3 ), .RESET_VAL ( 0 ) ) in_regs ( .clk_i ( clk_i ), .rst_i ( rst_i ), .data_i ( { a_i, b_lo_i, im_addr_i, wr_i, rd_i, ext_i } ), .data_o ( { a, b_lo, im_addr, wr, rd, ext } ) ); // read / write address assign rw_addr = b_lo + im_addr; // decode address assign addr = ( rd | wr ) ? rw_addr : pc_1_i; // decode register set address space (all upper bits set) assign regs_en = &addr[ADDR_W-1:REG_ADDR_W]; // decode regs read & write assign regs_wr = wr & regs_en; assign regs_rd = rd & regs_en; // decode dmem write assign dm_wr = wr & ~regs_en; // decode write data assign wr_data = ( ext ) ? a[DATA_W-1:DATA_W/2] : a[DATA_W/2-1:0]; // optional output registers vector_sr #( .REGS ( REGS_OUT ), .DATA_W ( ADDR_W+DATA_W/2+3 ), .RESET_VAL ( 0 ) ) out_regs ( .clk_i ( clk_i ), .rst_i ( rst_i ), .data_i ( { addr, wr_data, regs_wr, regs_rd, dm_wr } ), .data_o ( { addr_o, wr_data_o, regs_wr_o, regs_rd_o, dm_wr_o } ) ); endmodule
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