module RAM2E_UFM(C14M, S, FS, CS, RWSel, D, RWMask, LEDEN, CmdRWMaskSet, CmdLEDSet, ChipCmdNum); input C14M; input [3:0] S; input [15:0] FS; input [2:0] CS; input RWSel; input [7:0] D; output reg [7:0] RWMask; output reg LEDEN; input CmdRWMaskSet; input CmdLEDSet; /* Chip ID */ //output [7:0] ChipCmdNum; assign ChipCmdNum[7:0] = 8'hFF; // MAX //output [7:0] ChipCmdNum; assign ChipCmdNum[7:0] = 8'hFE; // SPI output [7:0] ChipCmdNum; assign ChipCmdNum[7:0] = 8'hFD; // MachXO2 /* RAMWorks register control - Lattice MachXO2 */ reg CmdBitbangMXO2 = 0; reg CmdExecMXO2 = 0; always @(posedge C14M) begin if (S==4'hC && RWSel) begin if (CS==3'h6) begin // Recognize and submit command in CS6 // Altera MAX II/V commands //CmdBitbangMAX <= D[7:0]==8'hEA; //if (!CmdEraseMAX && !CmdPrgmMAX) begin // if (D[7:0]==8'hEE) CmdEraseMAX <= 1; // if (D[7:0]==8'hEF) CmdPrgmMAX <= 1; //end // SPI commands //CmdBitbangSPI <= D[7:0]==8'hEB; // MachXO2 commands CmdBitbangMXO2 <= D[7:0]==8'hEC; CmdExecMXO2 <= D[7:0]==8'hED; end else begin // Reset command triggers CmdBitbangMXO2 <= 0; CmdExecMXO2 <= 0; end end end /* UFM Interface */ reg wb_rst; reg wb_cyc_stb; reg wb_req; reg wb_we; reg [7:0] wb_adr; reg [7:0] wb_dati; wire wb_ack; wire [7:0] wb_dato; wire ufm_irq; REFB ufmefb( .wb_clk_i(C14M), .wb_rst_i(wb_rst), .wb_cyc_i(wb_cyc_stb), .wb_stb_i(wb_cyc_stb), .wb_we_i(wb_we), .wb_adr_i(wb_adr), .wb_dat_i(wb_dati), .wb_dat_o(wb_dato), .wb_ack_o(wb_ack), .wbc_ufm_irq(ufm_irq)); /* UFM Control */ always @(posedge C14M) begin if (S==4'h0) begin if (FS[15:14]==2'b00) wb_rst <= 1'b1; else if (FS[15:14]==2'b01) wb_rst <= 1'b0; else if (FS[15:14]==2'b10) begin wb_rst <= 1'b0; if (wb_ack || (FS[7:0]==0)) wb_cyc_stb <= 0; else if ((FS[7:0]==1) && wb_req) wb_cyc_stb <= 1; case (FS[13:8]) 0: begin // Open frame wb_we <= 1'b1; wb_adr[7:0] <= 8'h70; wb_dati[7:0] <= 8'h80; wb_req <= 1; end 1: begin // Enable config interface - command wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h74; wb_req <= 1; end 2: begin // Enable config interface - operand 1/3 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h08; wb_req <= 1; end 3: begin // Enable config interface - operand 2/3 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 4: begin // Enable config interface - operand 3/3 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 5: begin // Close frame wb_we <= 1'b1; wb_adr[7:0] <= 8'h70; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 6: begin // Open frame wb_we <= 1'b1; wb_adr[7:0] <= 8'h70; wb_dati[7:0] <= 8'h80; wb_req <= 1; end 7: begin // Poll status register - command wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h3C; wb_req <= 1; end 8: begin // Poll status register - operand 1/3 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 9: begin // Poll status register - operand 2/3 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 10: begin // Poll status register - operand 3/3 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 11, 12, 13, 14: begin // Read status register 1-4 wb_we <= 1'b0; wb_adr[7:0] <= 8'h73; wb_dati[7:0] <= 8'h3C; wb_req <= 1; end 15: begin // Close frame wb_we <= 1'b1; wb_adr[7:0] <= 8'h70; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 16: begin // Open frame wb_we <= 1'b1; wb_adr[7:0] <= 8'h70; wb_dati[7:0] <= 8'h80; wb_req <= 1; end 17: begin // Set UFM address - command wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'hB4; wb_req <= 1; end 18: begin // Set UFM address - operand 1/3 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 19: begin // Set UFM address - operand 2/3 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 20: begin // Set UFM address - operand 3/3 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 21: begin // Set UFM address - data 1/4 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h40; wb_req <= 1; end 22: begin // Set UFM address - data 2/4 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 23: begin // Set UFM address - data 3/4 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 24: begin // Set UFM address - data 4/4 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 190; wb_req <= 1; end 25: begin // Close frame wb_we <= 1'b1; wb_adr[7:0] <= 8'h70; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 26: begin // Open frame wb_we <= 1'b1; wb_adr[7:0] <= 8'h70; wb_dati[7:0] <= 8'h80; wb_req <= 1; end 27: begin // Read UFM page - command wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'hCA; wb_req <= 1; end 28: begin // Read UFM page - operand 1/3 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h10; wb_req <= 1; end 29: begin // Read UFM page - operand 2/3 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 30: begin // Read UFM page - operand 3/3 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h01; wb_req <= 1; end 31: begin // Read UFM page - data 0 wb_we <= 1'b0; wb_adr[7:0] <= 8'h73; wb_dati[7:0] <= 8'h00; wb_req <= 1; if (wb_ack) RWMask[7:0] <= wb_dato[7:0]; end 32: begin // Read UFM page - data 1 wb_we <= 1'b0; wb_adr[7:0] <= 8'h73; wb_dati[7:0] <= 8'h00; wb_req <= 1; if (wb_ack) LEDEN <= wb_dato[0]; end 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46: begin // Read UFM page - data 2-15 wb_we <= 1'b0; wb_adr[7:0] <= 8'h73; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 47: begin // Close frame wb_we <= 1'b1; wb_adr[7:0] <= 8'h70; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 48: begin // Open frame wb_we <= 1'b1; wb_adr[7:0] <= 8'h70; wb_dati[7:0] <= 8'h80; wb_req <= 1; end 49: begin // Disable config interface - command wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h26; wb_req <= 1; end 50: begin // Disable config interface - operand 1/2 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 51: begin // Disable config interface - operand 2/2 wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 52: begin // Close frame wb_we <= 1'b1; wb_adr[7:0] <= 8'h70; wb_dati[7:0] <= 8'h00; wb_req <= 1; end 53: begin // Open frame wb_we <= 1'b1; wb_adr[7:0] <= 8'h70; wb_dati[7:0] <= 8'h80; wb_req <= 1; end 54: begin // Bypass - command wb_we <= 1'b1; wb_adr[7:0] <= 8'h71; wb_dati[7:0] <= 8'hFF; wb_req <= 1; end 55: begin // Close frame wb_we <= 1'b1; wb_adr[7:0] <= 8'h70; wb_dati[7:0] <= 8'h00; wb_req <= 1; end default: begin wb_we <= 1'b0; wb_adr[7:0] <= 8'h70; wb_dati[7:0] <= 8'h00; wb_req <= 0; end endcase end else begin wb_rst <= 1'b0; wb_cyc_stb <= 1'b0; wb_req <= 1'b0; wb_we <= 1'b0; wb_adr[7:0] <= 8'h00; wb_dati[7:0] <= 8'h00; end end else begin // UFM bitbang control wb_rst <= 1'b0; wb_req <= 1'b0; // Volatile settings command execution if (RWSel && S==4'hC) begin // LED control if (CmdLEDSet) LEDEN <= D[0]; // Set capacity mask if (CmdRWMaskSet) RWMask[7:0] <= {D[7], ~D[6:0]}; end // EFB commands if (RWSel && S==4'hC) begin // Set EFB address if (CmdBitbangMXO2) begin wb_adr[7:0] <= D[7:0]; wb_dati[7:0] <= wb_adr[7:0]; end // Excecute EFB R/W cycle if (CmdExecMXO2) begin wb_we <= D[0]; wb_cyc_stb <= 1; end else if (wb_ack) wb_cyc_stb <= 0; end end end endmodule