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author | Matt Ettus <matt@ettus.com> | 2010-06-14 18:51:53 -0700 |
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committer | Matt Ettus <matt@ettus.com> | 2010-06-14 18:51:53 -0700 |
commit | 36e0219beaf03961cd46a6c1647510a5eebd36a3 (patch) | |
tree | 83c87bdc5b20e59890d932834ab7c5cac38dfb6d | |
parent | 9445315e6a5cdfb29c4ead73b0fcd4d5fd75b900 (diff) | |
download | uhd-36e0219beaf03961cd46a6c1647510a5eebd36a3.tar.gz uhd-36e0219beaf03961cd46a6c1647510a5eebd36a3.tar.bz2 uhd-36e0219beaf03961cd46a6c1647510a5eebd36a3.zip |
barely fails timing on gigE/10 and gigE/12, larger fail on udp/10, but all
seem to work ok
-rw-r--r-- | usrp2/control_lib/Makefile.srcs | 1 | ||||
-rw-r--r-- | usrp2/control_lib/ram_harvard.v | 69 | ||||
-rw-r--r-- | usrp2/control_lib/ram_loader.v | 460 | ||||
-rw-r--r-- | usrp2/opencores/aemb/rtl/verilog/aeMB_bpcu.v | 5 | ||||
-rw-r--r-- | usrp2/opencores/aemb/rtl/verilog/aeMB_core_BE.v | 27 | ||||
-rwxr-xr-x[-rw-r--r--] | usrp2/top/u2_rev3/u2_core.v | 50 | ||||
-rw-r--r-- | usrp2/top/u2_rev3/u2_core_udp.v | 53 |
7 files changed, 390 insertions, 275 deletions
diff --git a/usrp2/control_lib/Makefile.srcs b/usrp2/control_lib/Makefile.srcs index 5e2a96a53..bc8e4d5bc 100644 --- a/usrp2/control_lib/Makefile.srcs +++ b/usrp2/control_lib/Makefile.srcs @@ -20,6 +20,7 @@ mux8.v \ nsgpio.v \ ram_2port.v \ ram_harv_cache.v \ +ram_harvard.v \ ram_loader.v \ setting_reg.v \ settings_bus.v \ diff --git a/usrp2/control_lib/ram_harvard.v b/usrp2/control_lib/ram_harvard.v new file mode 100644 index 000000000..948f9b36f --- /dev/null +++ b/usrp2/control_lib/ram_harvard.v @@ -0,0 +1,69 @@ + + +// Dual ported, Harvard architecture, cached ram + +module ram_harvard + #(parameter AWIDTH=15, + parameter RAM_SIZE=16384, + parameter ICWIDTH=6, + parameter DCWIDTH=6) + + (input wb_clk_i, + input wb_rst_i, + // Firmware download port. + input [AWIDTH-1:0] ram_loader_adr_i, + input [31:0] ram_loader_dat_i, + input [3:0] ram_loader_sel_i, + input ram_loader_stb_i, + input ram_loader_we_i, + input ram_loader_done_i, + // Instruction fetch port. + input [AWIDTH-1:0] if_adr, + output [31:0] if_data, + // Data access port. + input [AWIDTH-1:0] dwb_adr_i, + input [31:0] dwb_dat_i, + output [31:0] dwb_dat_o, + input dwb_we_i, + output dwb_ack_o, + input dwb_stb_i, + input [3:0] dwb_sel_i, + + input flush_icache ); + + reg ack_d1; + reg stb_d1; + + dpram32 #(.AWIDTH(AWIDTH),.RAM_SIZE(RAM_SIZE)) + sys_ram + (.clk(wb_clk_i), + .adr1_i(ram_loader_done_i ? if_adr : ram_loader_adr_i), + .dat1_i(ram_loader_dat_i), + .dat1_o(if_data), + .we1_i(ram_loader_done_i ? 1'b0 : ram_loader_we_i), + .en1_i(ram_loader_done_i ? 1'b1 : ram_loader_stb_i), + //.sel1_i(ram_loader_done_i ? 4'hF : ram_loader_sel_i), + .sel1_i(ram_loader_sel_i), // Sel is only for writes anyway + .adr2_i(dwb_adr_i), + .dat2_i(dwb_dat_i), + .dat2_o(dwb_dat_o), + .we2_i(dwb_we_i), + .en2_i(dwb_stb_i), + .sel2_i(dwb_sel_i) + ); + + assign dwb_ack_o = dwb_stb_i & (dwb_we_i | (stb_d1 & ~ack_d1)); + + always @(posedge wb_clk_i) + if(wb_rst_i) + ack_d1 <= 1'b0; + else + ack_d1 <= dwb_ack_o; + + always @(posedge wb_clk_i) + if(wb_rst_i) + stb_d1 <= 0; + else + stb_d1 <= dwb_stb_i; + +endmodule // ram_harvard diff --git a/usrp2/control_lib/ram_loader.v b/usrp2/control_lib/ram_loader.v index cb67de739..c53ea7aa7 100644 --- a/usrp2/control_lib/ram_loader.v +++ b/usrp2/control_lib/ram_loader.v @@ -1,225 +1,261 @@ +module ram_loader + #(parameter AWIDTH=16, RAM_SIZE=16384) + ( + // Wishbone I/F and clock domain + input wb_clk, + input dsp_clk, + input ram_loader_rst, + output wire [31:0] wb_dat, + output wire [AWIDTH-1:0] wb_adr, + output wb_stb, + output reg [3:0] wb_sel, + output wb_we, + output reg ram_loader_done, + // CPLD signals and clock domain + input cpld_clk, + input cpld_din, + output reg cpld_start, + output reg cpld_mode, + output reg cpld_done, + input cpld_detached + ); -// Adapted from VHDL code in spi_boot by Arnim Legauer -// Added a full wishbone master interface (32-bit) - -module ram_loader #(parameter AWIDTH=16, RAM_SIZE=16384) - (input clk_i, input rst_i, - // CPLD Interface - input cfg_clk_i, input cfg_data_i, - output start_o, output mode_o, output done_o, - input detached_i, - // Wishbone interface - output wire [31:0] wb_dat_o, - output reg [AWIDTH-1:0] wb_adr_o, - output wb_stb_o, - output wb_cyc_o, - output reg [3:0] wb_sel_o, - output reg wb_we_o, - input wb_ack_i, - output ram_loader_done_o); + localparam S0 = 0; + localparam S1 = 1; + localparam S2 = 2; + localparam S3 = 3; + localparam S4 = 4; + localparam S5 = 5; + localparam S6 = 6; + localparam RESET = 7; - // FSM to control start signal, clocked on main clock - localparam FSM1_WAIT_DETACH = 2'b00; - localparam FSM1_CHECK_NO_DONE = 2'b01; - localparam FSM1_WAIT_DONE = 2'b10; - - reg [1:0] start_fsm_q, start_fsm_s; - reg start_q, enable_q, start_s, enable_s; - reg done_q, done_s; + localparam WB_IDLE = 0; + localparam WB_WRITE = 1; + + + reg [AWIDTH+2:0] count; // 3 LSB's count bits in, the MSB's generate the Wishbone address + reg [6:0] shift_reg; + reg [7:0] data_reg; + reg sampled_clk; + reg sampled_clk_meta; + reg sampled_din; + reg inc_count; + reg load_data_reg; + reg shift; + reg wb_state, wb_next_state; + reg [2:0] state, next_state; + + // + // CPLD clock doesn't free run and is approximately 12.5MHz. + // Use 50MHz Wishbone clock to sample it as a signal and avoid having + // an extra clock domain for no reason. + // + + always @(posedge dsp_clk or posedge ram_loader_rst) + if (ram_loader_rst) + begin + sampled_clk_meta <= 1'b0; + sampled_clk <= 1'b0; + sampled_din <= 1'b0; + count <= 'h7FFF8; // Initialize so that address will be 0 when first byte fully received. + data_reg <= 0; + shift_reg <= 0; + end + else + begin + sampled_clk_meta <= cpld_clk; + sampled_clk <= sampled_clk_meta; + sampled_din <= cpld_din; + if (inc_count) + count <= count + 1'b1; + if (load_data_reg) + data_reg <= {shift_reg,sampled_din}; + if (shift) + shift_reg <= {shift_reg[5:0],sampled_din}; + end // else: !if(ram_loader_rst) - always @(posedge clk_i or posedge rst_i) - if(rst_i) - begin - start_fsm_q <= FSM1_WAIT_DETACH; - start_q <= 1'b0; - enable_q <= 1'b0; - end + + always @(posedge dsp_clk or posedge ram_loader_rst) + if (ram_loader_rst) + state <= RESET; else - begin - start_fsm_q <= start_fsm_s; - enable_q <= enable_s; - start_q <= start_s; - end // else: !if(rst_i) - + state <= next_state; + + always @* - case(start_fsm_q) - FSM1_WAIT_DETACH: - if(detached_i == 1'b1) - begin - start_fsm_s <= FSM1_CHECK_NO_DONE; - enable_s <= 1'b1; - start_s <= 1'b1; - end - else - begin - start_fsm_s <= FSM1_WAIT_DETACH; - enable_s <= enable_q; - start_s <= start_q; - end // else: !if(detached_i == 1'b1) - FSM1_CHECK_NO_DONE: - if(~done_q) - begin - start_fsm_s <= FSM1_WAIT_DONE; - enable_s <= enable_q; - start_s <= start_q; - end - else - begin - start_fsm_s <= FSM1_CHECK_NO_DONE; - enable_s <= enable_q; - start_s <= start_q; - end // else: !if(~done_q) - FSM1_WAIT_DONE: - if(done_q) - begin - start_fsm_s <= FSM1_WAIT_DETACH; - enable_s <= 1'b0; - start_s <= 1'b0; - end - else - begin - start_fsm_s <= FSM1_WAIT_DONE; - enable_s <= enable_q; - start_s <= start_q; - end // else: !if(done_q) - default: - begin - start_fsm_s <= FSM1_WAIT_DETACH; - enable_s <= enable_q; - start_s <= start_q; - end // else: !if(done_q) - endcase // case(start_fsm_q) - - // FSM running on data clock - - localparam FSM2_IDLE = 3'b000; - localparam FSM2_WE_ON = 3'b001; - localparam FSM2_WE_OFF = 3'b010; - localparam FSM2_INC_ADDR1 = 3'b011; - localparam FSM2_INC_ADDR2 = 3'b100; - localparam FSM2_FINISHED = 3'b101; - - reg [AWIDTH-1:0] addr_q; - reg [7:0] shift_dat_q, ser_dat_q; - reg [2:0] bit_q, fsm_q, fsm_s; - reg bit_ovfl_q, ram_we_s, ram_we_q, mode_q, mode_s, inc_addr_s; - - always @(posedge cfg_clk_i or posedge rst_i) - if(rst_i) - begin - addr_q <= 0; - shift_dat_q <= 8'd0; - ser_dat_q <= 8'd0; - bit_q <= 3'd0; - bit_ovfl_q <= 1'b0; - fsm_q <= FSM2_IDLE; - ram_we_q <= 1'b0; - done_q <= 1'b0; - mode_q <= 1'b0; - end + begin + // Defaults + next_state = state; + cpld_start = 1'b0; + shift = 1'b0; + inc_count = 0; + load_data_reg = 1'b0; + ram_loader_done = 1'b0; + cpld_mode = 1'b0; + cpld_done = 1'b1; + + + + case (state) //synthesis parallel_case full_case + // After reset wait until CPLD indicates its detached. + RESET: begin + if (cpld_detached) + next_state = S0; + else + next_state = RESET; + end + + // Assert cpld_start to signal the CPLD its to start sending serial clock and data. + // Assume cpld_clk is low as we transition into search for first rising edge + S0: begin + cpld_start = 1'b1; + cpld_done = 1'b0; + if (~cpld_detached) + next_state = S2; + else + next_state = S0; + end + + // + S1: begin + cpld_start = 1'b1; + cpld_done = 1'b0; + if (sampled_clk) + begin + // Found rising edge on cpld_clk. + if (count[2:0] == 3'b111) + // Its the last bit of a byte, send it out to the Wishbone bus. + begin + load_data_reg = 1'b1; + inc_count = 1'b1; + end + else + // Shift databit into LSB of shift register and increment count + begin + shift = 1'b1; + inc_count = 1'b1; + end // else: !if(count[2:0] == 3'b111) + next_state = S2; + end // if (sampled_clk) + else + next_state = S1; + end // case: S1 + + // + S2: begin + cpld_start = 1'b1; + cpld_done = 1'b0; + if (~sampled_clk) + // Found negative edge of clock + if (count[AWIDTH+2:3] == RAM_SIZE-1) // NOTE need to change this constant + // All firmware now downloaded + next_state = S3; + else + next_state = S1; + else + next_state = S2; + end // case: S2 + + // Now that terminal count is reached and all firmware is downloaded signal CPLD that download is done + // and that mode is now SPI mode. + S3: begin + if (sampled_clk) + begin + cpld_mode = 1'b1; + cpld_done = 1'b1; + next_state = S4; + end + else + next_state = S3; + end + + // Search for negedge of cpld_clk whilst keeping done sequence asserted. + // Keep done assserted + S4: begin + cpld_mode = 1'b1; + cpld_done = 1'b1; + if (~sampled_clk) + next_state = S5; + else + next_state = S4; + end + + // Search for posedge of cpld_clk whilst keeping done sequence asserted. + S5: begin + cpld_mode = 1'b1; + cpld_done = 1'b1; + if (sampled_clk) + next_state = S6; + else + next_state = S5; + end + + // Stay in this state until reset/power down + S6: begin + ram_loader_done = 1'b1; + cpld_done = 1'b1; + cpld_mode = 1'b1; + next_state = S6; + end + + endcase // case(state) + end + + always @(posedge dsp_clk or posedge ram_loader_rst) + if (ram_loader_rst) + wb_state <= WB_IDLE; else - begin - if(inc_addr_s) - addr_q <= addr_q + 1; - if(enable_q) - begin - bit_q <= bit_q + 1; - bit_ovfl_q <= (bit_q == 3'd7); - shift_dat_q[0] <= cfg_data_i; - shift_dat_q[7:1] <= shift_dat_q[6:0]; - end - if(bit_ovfl_q) - ser_dat_q <= shift_dat_q; - - fsm_q <= fsm_s; - - ram_we_q <= ram_we_s; - - if(done_s) - done_q <= 1'b1; - mode_q <= mode_s; - end // else: !if(rst_i) + wb_state <= wb_next_state; + reg do_write; + wire empty, full; + always @* begin - inc_addr_s <= 1'b0; - ram_we_s <= 1'b0; - done_s <= 1'b0; - fsm_s <= FSM2_IDLE; - mode_s <= 1'b0; - - case(fsm_q) - FSM2_IDLE : - if(start_q) - if(bit_ovfl_q) - fsm_s <= FSM2_WE_ON; - FSM2_WE_ON: - begin - ram_we_s <= 1'b1; - fsm_s <= FSM2_WE_OFF; - end - FSM2_WE_OFF: - begin - ram_we_s <= 1'b1; - fsm_s <= FSM2_INC_ADDR1; - end - FSM2_INC_ADDR1: - fsm_s <= FSM2_INC_ADDR2; - FSM2_INC_ADDR2: - if(addr_q == (RAM_SIZE-1)) - //if(&addr_q) - begin - fsm_s <= FSM2_FINISHED; - done_s <= 1'b1; - mode_s <= 1'b1; - end - else - begin - inc_addr_s <= 1'b1; - fsm_s <= FSM2_IDLE; - end // else: !if(&addr_q) - FSM2_FINISHED: - begin - fsm_s <= FSM2_FINISHED; - mode_s <= 1'b1; - end - endcase // case(fsm_q) + wb_next_state = wb_state; + do_write = 1'b0; + + case (wb_state) //synthesis full_case parallel_case + // + WB_IDLE: begin + if (load_data_reg) + // Data reg will load ready to write wishbone @ next clock edge + wb_next_state = WB_WRITE; + else + wb_next_state = WB_IDLE; + end + + // Drive address and data onto wishbone. + WB_WRITE: begin + do_write = 1'b1; + if (~full) + wb_next_state = WB_IDLE; + else + wb_next_state = WB_WRITE; + end + + endcase // case(wb_state) end // always @ * - assign start_o = start_q; - assign mode_o = mode_q; - assign done_o = start_q ? done_q : 1'b1; - wire [AWIDTH-1:0] ram_addr = addr_q; - wire [7:0] ram_data = ser_dat_q; - assign ram_loader_done_o = (fsm_q == FSM2_FINISHED); - - // wishbone master, only writes - reg [7:0] dat_holder; - assign wb_dat_o = {4{dat_holder}}; - assign wb_stb_o = wb_we_o; - assign wb_cyc_o = wb_we_o; + wire [1:0] count_out; + wire [7:0] data_out; + + fifo_xlnx_16x40_2clk crossclk + (.rst(ram_loader_rst), + .wr_clk(dsp_clk), .din({count[4:3],count[AWIDTH+2:3],data_reg}), .wr_en(do_write), .full(full), + .rd_clk(wb_clk), .dout({count_out,wb_adr,data_out}), .rd_en(~empty), .empty(empty)); + + assign wb_dat = {4{data_out}}; + + always @* + case(count_out[1:0]) //synthesis parallel_case full_case + 2'b00 : wb_sel = 4'b1000; + 2'b01 : wb_sel = 4'b0100; + 2'b10 : wb_sel = 4'b0010; + 2'b11 : wb_sel = 4'b0001; + endcase + + assign wb_we = ~empty; + assign wb_stb = ~empty; - always @(posedge clk_i or posedge rst_i) - if(rst_i) - begin - dat_holder <= 8'd0; - wb_adr_o <= 0; - wb_sel_o <= 4'b0000; - wb_we_o <= 1'b0; - end - else if(ram_we_q) - begin - dat_holder <= ram_data; - wb_adr_o <= ram_addr; - wb_we_o <= 1'b1; - case(ram_addr[1:0]) // Big Endian - 2'b00 : wb_sel_o <= 4'b1000; - 2'b01 : wb_sel_o <= 4'b0100; - 2'b10 : wb_sel_o <= 4'b0010; - 2'b11 : wb_sel_o <= 4'b0001; - endcase // case(ram_addr[1:0]) - end // if (ram_we_q) - else if(wb_ack_i) - wb_we_o <= 1'b0; - endmodule // ram_loader diff --git a/usrp2/opencores/aemb/rtl/verilog/aeMB_bpcu.v b/usrp2/opencores/aemb/rtl/verilog/aeMB_bpcu.v index a7c686e7e..81587e25c 100644 --- a/usrp2/opencores/aemb/rtl/verilog/aeMB_bpcu.v +++ b/usrp2/opencores/aemb/rtl/verilog/aeMB_bpcu.v @@ -125,7 +125,7 @@ module aeMB_bpcu (/*AUTOARG*/ reg [31:2] rPC, xPC; reg [31:2] rPCLNK, xPCLNK; - assign iwb_adr_o = rIPC[IW-1:2]; + assign iwb_adr_o = gena ? xIPC[IW-1:2] : rIPC[IW-1:2]; //IJB always @(/*AUTOSENSE*/rBRA or rIPC or rPC or rRESULT) begin //xPCLNK <= (^rATOM) ? rPC : rPC; @@ -168,7 +168,8 @@ module aeMB_bpcu (/*AUTOARG*/ rATOM <= 2'h0; rBRA <= 1'h0; rDLY <= 1'h0; - rIPC <= 30'h0; +// rIPC <= 30'h0; + rIPC <= 30'h3fffffff; // DWORD aligned address rPC <= 30'h0; rPCLNK <= 30'h0; // End of automatics diff --git a/usrp2/opencores/aemb/rtl/verilog/aeMB_core_BE.v b/usrp2/opencores/aemb/rtl/verilog/aeMB_core_BE.v index 9ffa20ff2..38ca3a023 100644 --- a/usrp2/opencores/aemb/rtl/verilog/aeMB_core_BE.v +++ b/usrp2/opencores/aemb/rtl/verilog/aeMB_core_BE.v @@ -10,12 +10,10 @@ module aeMB_core_BE parameter MUL=0, parameter BSF=0) (input sys_clk_i, input sys_rst_i, - - output iwb_stb_o, - output [ISIZ-1:0] iwb_adr_o, - input [31:0] iwb_dat_i, - input iwb_ack_i, - + // Instruction port + output [14:0] if_adr, + input [31:0] if_dat, + // Data port output dwb_we_o, output dwb_stb_o, output [DSIZ-1:0] dwb_adr_o, @@ -28,17 +26,28 @@ module aeMB_core_BE input sys_int_i, input sys_exc_i); - assign dwb_cyc_o = dwb_stb_o; + wire [ISIZ-1:0] iwb_adr_o; + wire [31:0] iwb_dat_i; + wire iwb_ack_i; + wire iwb_stb_o; + + assign dwb_cyc_o = dwb_stb_o; + assign iwb_ack_i = 1'b1; + assign if_adr = iwb_adr_o[14:0]; + assign iwb_dat_i = if_dat; + + // Note some "wishbone" instruction fetch signals pruned on external interface + // but not propogated change deep into aeMB. aeMB_edk32 #(.IW(ISIZ),.DW(DSIZ),.MUL(MUL),.BSF(BSF)) aeMB_edk32 (.sys_clk_i(sys_clk_i), .sys_rst_i(sys_rst_i), - + // Instruction Port .iwb_stb_o(iwb_stb_o), .iwb_adr_o(iwb_adr_o[ISIZ-1:2]), .iwb_ack_i(iwb_ack_i), .iwb_dat_i(iwb_dat_i), - + // Data port .dwb_wre_o(dwb_we_o), .dwb_stb_o(dwb_stb_o), .dwb_adr_o(dwb_adr_o[DSIZ-1:2]), diff --git a/usrp2/top/u2_rev3/u2_core.v b/usrp2/top/u2_rev3/u2_core.v index b67d8edd6..9ba3cc136 100644..100755 --- a/usrp2/top/u2_rev3/u2_core.v +++ b/usrp2/top/u2_rev3/u2_core.v @@ -277,33 +277,33 @@ module u2_core // /////////////////////////////////////////////////////////////////// // RAM Loader - wire [31:0] ram_loader_dat, iwb_dat; - wire [15:0] ram_loader_adr, iwb_adr; + wire [31:0] ram_loader_dat, if_dat; + wire [15:0] ram_loader_adr; + wire [14:0] if_adr; wire [3:0] ram_loader_sel; - wire ram_loader_stb, ram_loader_we, ram_loader_ack; + wire ram_loader_stb, ram_loader_we; wire iwb_ack, iwb_stb; ram_loader #(.AWIDTH(16),.RAM_SIZE(RAM_SIZE)) - ram_loader (.clk_i(wb_clk),.rst_i(ram_loader_rst), + ram_loader (.wb_clk(wb_clk),.dsp_clk(dsp_clk),.ram_loader_rst(ram_loader_rst), + .wb_dat(ram_loader_dat),.wb_adr(ram_loader_adr), + .wb_stb(ram_loader_stb),.wb_sel(ram_loader_sel), + .wb_we(ram_loader_we), + .ram_loader_done(ram_loader_done), // CPLD Interface - .cfg_clk_i(cpld_clk), - .cfg_data_i(cpld_din), - .start_o(cpld_start_int), - .mode_o(cpld_mode_int), - .done_o(cpld_done_int), - .detached_i(cpld_detached), - // Wishbone Interface - .wb_dat_o(ram_loader_dat),.wb_adr_o(ram_loader_adr), - .wb_stb_o(ram_loader_stb),.wb_cyc_o(),.wb_sel_o(ram_loader_sel), - .wb_we_o(ram_loader_we),.wb_ack_i(ram_loader_ack), - .ram_loader_done_o(ram_loader_done)); - + .cpld_clk(cpld_clk), + .cpld_din(cpld_din), + .cpld_start(cpld_start_int), + .cpld_mode(cpld_mode_int), + .cpld_done(cpld_done_int), + .cpld_detached(cpld_detached)); + // ///////////////////////////////////////////////////////////////////////// // Processor aeMB_core_BE #(.ISIZ(16),.DSIZ(16),.MUL(0),.BSF(1)) aeMB (.sys_clk_i(wb_clk), .sys_rst_i(wb_rst), // Instruction Wishbone bus to I-RAM - .iwb_stb_o(iwb_stb),.iwb_adr_o(iwb_adr), - .iwb_dat_i(iwb_dat),.iwb_ack_i(iwb_ack), + .if_adr(if_adr), + .if_dat(if_dat), // Data Wishbone bus to system bus fabric .dwb_we_o(m0_we),.dwb_stb_o(m0_stb),.dwb_dat_o(m0_dat_i),.dwb_adr_o(m0_adr), .dwb_dat_i(m0_dat_o),.dwb_ack_i(m0_ack),.dwb_sel_o(m0_sel),.dwb_cyc_o(m0_cyc), @@ -317,16 +317,16 @@ module u2_core // I-port connects directly to processor and ram loader wire flush_icache; - ram_harv_cache #(.AWIDTH(15),.RAM_SIZE(RAM_SIZE),.ICWIDTH(7),.DCWIDTH(6)) + ram_harvard #(.AWIDTH(15),.RAM_SIZE(RAM_SIZE),.ICWIDTH(7),.DCWIDTH(6)) sys_ram(.wb_clk_i(wb_clk),.wb_rst_i(wb_rst), .ram_loader_adr_i(ram_loader_adr[14:0]), .ram_loader_dat_i(ram_loader_dat), .ram_loader_stb_i(ram_loader_stb), .ram_loader_sel_i(ram_loader_sel), - .ram_loader_we_i(ram_loader_we), .ram_loader_ack_o(ram_loader_ack), + .ram_loader_we_i(ram_loader_we), .ram_loader_done_i(ram_loader_done), - .iwb_adr_i(iwb_adr[14:0]), .iwb_stb_i(iwb_stb), - .iwb_dat_o(iwb_dat), .iwb_ack_o(iwb_ack), + .if_adr(if_adr), + .if_data(if_dat), .dwb_adr_i(s0_adr[14:0]), .dwb_dat_i(s0_dat_o), .dwb_dat_o(s0_dat_i), .dwb_we_i(s0_we), .dwb_ack_o(s0_ack), .dwb_stb_i(s0_stb), .dwb_sel_i(s0_sel), @@ -622,7 +622,7 @@ module u2_core // /////////////////////////////////////////////////////////////////////////////////// // External RAM Interface - +/* localparam PAGE_SIZE = 10; // PAGE SIZE is in bytes, 10 = 1024 bytes wire [15:0] bus2ram, ram2bus; @@ -650,6 +650,7 @@ module u2_core .sram_bw(),.sram_adv(RAM_LDn),.sram_ce(RAM_CENn),.sram_oe(RAM_OEn), .sram_mode(),.sram_zz() ); +*/ assign RAM_CE1n = 0; assign RAM_D[17:16] = 2'bzz; @@ -700,7 +701,8 @@ module u2_core { wr2_flags, rd2_flags }, { GMII_TX_EN,3'd0, wr2_ready_i, wr2_ready_o, rd2_ready_i, rd2_ready_o } }; - assign debug_gpio_0 = debug_mac; //eth_mac_debug; + assign debug_gpio_0 = 0; + //debug_mac; //eth_mac_debug; assign debug_gpio_1 = 0; endmodule // u2_core diff --git a/usrp2/top/u2_rev3/u2_core_udp.v b/usrp2/top/u2_rev3/u2_core_udp.v index cb0ed78c7..798022adc 100644 --- a/usrp2/top/u2_rev3/u2_core_udp.v +++ b/usrp2/top/u2_rev3/u2_core_udp.v @@ -279,33 +279,33 @@ module u2_core // /////////////////////////////////////////////////////////////////// // RAM Loader - wire [31:0] ram_loader_dat, iwb_dat; - wire [15:0] ram_loader_adr, iwb_adr; + wire [31:0] ram_loader_dat, if_dat; + wire [15:0] ram_loader_adr; + wire [14:0] if_adr; wire [3:0] ram_loader_sel; - wire ram_loader_stb, ram_loader_we, ram_loader_ack; + wire ram_loader_stb, ram_loader_we; wire iwb_ack, iwb_stb; ram_loader #(.AWIDTH(16),.RAM_SIZE(RAM_SIZE)) - ram_loader (.clk_i(wb_clk),.rst_i(ram_loader_rst), + ram_loader (.wb_clk(wb_clk),.dsp_clk(dsp_clk),.ram_loader_rst(ram_loader_rst), + .wb_dat(ram_loader_dat),.wb_adr(ram_loader_adr), + .wb_stb(ram_loader_stb),.wb_sel(ram_loader_sel), + .wb_we(ram_loader_we), + .ram_loader_done(ram_loader_done), // CPLD Interface - .cfg_clk_i(cpld_clk), - .cfg_data_i(cpld_din), - .start_o(cpld_start_int), - .mode_o(cpld_mode_int), - .done_o(cpld_done_int), - .detached_i(cpld_detached), - // Wishbone Interface - .wb_dat_o(ram_loader_dat),.wb_adr_o(ram_loader_adr), - .wb_stb_o(ram_loader_stb),.wb_cyc_o(),.wb_sel_o(ram_loader_sel), - .wb_we_o(ram_loader_we),.wb_ack_i(ram_loader_ack), - .ram_loader_done_o(ram_loader_done)); - + .cpld_clk(cpld_clk), + .cpld_din(cpld_din), + .cpld_start(cpld_start_int), + .cpld_mode(cpld_mode_int), + .cpld_done(cpld_done_int), + .cpld_detached(cpld_detached)); + // ///////////////////////////////////////////////////////////////////////// // Processor aeMB_core_BE #(.ISIZ(16),.DSIZ(16),.MUL(0),.BSF(1)) aeMB (.sys_clk_i(wb_clk), .sys_rst_i(wb_rst), // Instruction Wishbone bus to I-RAM - .iwb_stb_o(iwb_stb),.iwb_adr_o(iwb_adr), - .iwb_dat_i(iwb_dat),.iwb_ack_i(iwb_ack), + .if_adr(if_adr), + .if_dat(if_dat), // Data Wishbone bus to system bus fabric .dwb_we_o(m0_we),.dwb_stb_o(m0_stb),.dwb_dat_o(m0_dat_i),.dwb_adr_o(m0_adr), .dwb_dat_i(m0_dat_o),.dwb_ack_i(m0_ack),.dwb_sel_o(m0_sel),.dwb_cyc_o(m0_cyc), @@ -319,16 +319,16 @@ module u2_core // I-port connects directly to processor and ram loader wire flush_icache; - ram_harv_cache #(.AWIDTH(15),.RAM_SIZE(RAM_SIZE),.ICWIDTH(7),.DCWIDTH(6)) + ram_harvard #(.AWIDTH(15),.RAM_SIZE(RAM_SIZE),.ICWIDTH(7),.DCWIDTH(6)) sys_ram(.wb_clk_i(wb_clk),.wb_rst_i(wb_rst), .ram_loader_adr_i(ram_loader_adr[14:0]), .ram_loader_dat_i(ram_loader_dat), .ram_loader_stb_i(ram_loader_stb), .ram_loader_sel_i(ram_loader_sel), - .ram_loader_we_i(ram_loader_we), .ram_loader_ack_o(ram_loader_ack), + .ram_loader_we_i(ram_loader_we), .ram_loader_done_i(ram_loader_done), - .iwb_adr_i(iwb_adr[14:0]), .iwb_stb_i(iwb_stb), - .iwb_dat_o(iwb_dat), .iwb_ack_o(iwb_ack), + .if_adr(if_adr), + .if_data(if_dat), .dwb_adr_i(s0_adr[14:0]), .dwb_dat_i(s0_dat_o), .dwb_dat_o(s0_dat_i), .dwb_we_i(s0_we), .dwb_ack_o(s0_ack), .dwb_stb_i(s0_stb), .dwb_sel_i(s0_sel), @@ -773,8 +773,7 @@ endmodule // u2_core { s6_adr[15:8] }, { s6_adr[7:0] }, { 6'd0, mdio_cpy, MDC } }; -*/ -/* + assign debug = { { GMII_TXD }, { 5'd0, GMII_TX_EN, GMII_TX_ER, GMII_GTX_CLK }, { wr2_flags, rd2_flags }, @@ -783,7 +782,6 @@ endmodule // u2_core { 5'd0, GMII_RX_DV, GMII_RX_ER, GMII_RX_CLK }, { wr2_flags, rd2_flags }, { GMII_TX_EN,3'd0, wr2_ready_i, wr2_ready_o, rd2_ready_i, rd2_ready_o } }; - */ // assign debug = debug_udp; // assign debug = vrc_debug; @@ -794,9 +792,8 @@ endmodule // u2_core {wr1_ready_i, wr1_ready_o, rx1_src_rdy, rx1_dst_rdy, rx1_data[35:32]}}; */ // assign debug_gpio_1 = {vita_time[63:32] }; - -/* - assign debug_gpio_1 = { { tx_f19_data[15:8] }, +/* + assign debug_gpio_1 = { { tx_f19_data[15:8] }, { tx_f19_data[7:0] }, { 3'd0, tx_f19_src_rdy, tx_f19_dst_rdy, tx_f19_data[18:16] }, { 2'b0, rd2_ready_i, rd2_ready_o, rd2_flags } }; |