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authorjcorgan2008-09-08 01:00:12 +0000
committerjcorgan2008-09-08 01:00:12 +0000
commite0fcbaee124d3e8c4c11bdda662f88e082352058 (patch)
treea51ef1c8b949681f45e5664478e8515065cfff5b /usrp2/fpga/eth/demo/verilog/demo.v
parentc86f6c23c6883f73d953d64c28ab42cedb77e4d7 (diff)
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Merged r9433:9527 from features/gr-usrp2 into trunk. Adds usrp2 and gr-usrp2 top-level components. Trunk passes distcheck with mb-gcc installed, but currently not without them. The key issue is that when mb-gcc is not installed, the build system skips over the usrp2/firmware directory, and the firmware include files don't get put into the dist tarball. But we can't do the usual DIST_SUBDIRS method as the firmware is a subpackage.
git-svn-id: http://gnuradio.org/svn/gnuradio/trunk@9528 221aa14e-8319-0410-a670-987f0aec2ac5
Diffstat (limited to 'usrp2/fpga/eth/demo/verilog/demo.v')
-rw-r--r--usrp2/fpga/eth/demo/verilog/demo.v378
1 files changed, 378 insertions, 0 deletions
diff --git a/usrp2/fpga/eth/demo/verilog/demo.v b/usrp2/fpga/eth/demo/verilog/demo.v
new file mode 100644
index 000000000..649903c9a
--- /dev/null
+++ b/usrp2/fpga/eth/demo/verilog/demo.v
@@ -0,0 +1,378 @@
+module demo(
+ Reset_n,
+ Clk_100M,
+ Clk_125M, // GMII only
+
+ RS232_TXD,
+ RS232_RXD,
+
+ USB_TXD,
+ USB_RXD,
+
+ //--- 10/100/1000BASE-T Ethernet PHY (MII/GMII)
+ PHY_RESET_n,
+
+ PHY_RXC,
+ PHY_RXD,
+ PHY_RXDV,
+ PHY_RXER,
+
+ PHY_GTX_CLK, // GMII only
+ PHY_TXC,
+ PHY_TXD,
+ PHY_TXEN,
+ PHY_TXER,
+
+ PHY_COL,
+ PHY_CRS,
+
+ PHY_MDC,
+ PHY_MDIO,
+
+ // Misc. I/Os
+ LED,
+ Button
+);
+
+ input Reset_n;
+ input Clk_100M;
+ input Clk_125M; // GMII
+
+ output RS232_TXD;
+ input RS232_RXD;
+
+ output USB_TXD;
+ input USB_RXD;
+
+ //--- 10/100/1000BASE-T Ethernet PHY (MII/GMII)
+ output PHY_RESET_n;
+
+ input PHY_RXC;
+ input [7:0] PHY_RXD;
+ input PHY_RXDV;
+ input PHY_RXER;
+
+ output PHY_GTX_CLK; // GMII only
+ input PHY_TXC;
+ output [7:0] PHY_TXD;
+ output PHY_TXEN;
+ output PHY_TXER;
+
+ input PHY_COL;
+ input PHY_CRS;
+
+ output PHY_MDC;
+ inout PHY_MDIO;
+
+ // Misc. I/Os
+ output [1:4] LED;
+
+ input [1:4] Button;
+
+ //-------------------------------------------------------------------------
+ // Local declarations
+ //-------------------------------------------------------------------------
+
+ // Rename to "standard" core clock name
+ wire Clk = Clk_100M;
+
+ reg [27:0] Counter;
+ always @( negedge Reset_n or posedge Clk )
+ if ( ~Reset_n )
+ Counter <= 0;
+ else
+ Counter <= Counter + 1;
+
+ assign LED[1:4] = Counter[27:24];
+
+ //-------------------------------------------------------------------------
+ // Instantiation of sub-modules
+ //-------------------------------------------------------------------------
+
+ //--- UART ----------------------------------------------------------------
+
+ wire UART_RXD;
+ wire UART_TXD;
+ wire UART_RxValid;
+ wire [7:0] UART_RxData;
+ wire UART_TxReady;
+ wire UART_TxValid;
+ wire [7:0] UART_TxData;
+
+ demo_uart demo_uart(
+ .Reset_n( Reset_n ),
+ .Clk ( Clk ),
+
+ // Interface to UART PHY
+ .RXD_i( UART_RXD ),
+ .TXD_o( UART_TXD ),
+
+ // Clk is divided by (Prescaler+1) to generate 16x the bitrate
+`ifdef EHDL_SIMULATION
+ .Prescaler_i( 16'd3 ), // Corresponds to VERY FAST - for simulation only!
+`else
+ .Prescaler_i( 16'd650 ), // Corresponds to 9600 baud (assuming 100 MHz clock)
+`endif
+
+ // Pulsed when RxData is valid
+ .RxValid_o( UART_RxValid ),
+ .RxData_o ( UART_RxData ),
+
+ // Asserted when ready for a new Tx byte
+ .TxReady_o( UART_TxReady ),
+
+ // Pulsed when TxData is valid
+ .TxValid_i( UART_TxValid ),
+ .TxData_i ( UART_TxData )
+ );
+
+ // Transmit & receive in parallel on either RS232 or USB/RS232 interface
+// assign UART_RXD = RS232_RXD & USB_RXD; // RS232 signals are high when inactive
+ assign UART_RXD = RS232_RXD;
+
+ assign RS232_TXD = UART_TXD;
+ assign USB_TXD = UART_TXD;
+
+ //--- UART-to-Wishbone Master ---------------------------------------------
+
+ wire WB_STB_ETH;
+ wire WB_STB_PDM;
+ wire WB_STB_PG;
+ wire WB_CYC;
+ wire [14:0] WB_ADR;
+ wire WB_WE;
+ wire [15:0] WB_DAT_Wr;
+ wire [15:0] WB_DAT_Rd;
+ wire WB_ACK;
+
+ demo_wishbone_master demo_wishbone_master(
+ .Reset_n( Reset_n ),
+ .Clk ( Clk ),
+
+ //--- UART interface
+
+ // Pulsed when RxData_i is valid
+ .RxValid_i( UART_RxValid ),
+ .RxData_i ( UART_RxData ),
+
+ // Asserted when ready for a new Tx byte
+ .TxReady_i( UART_TxReady ),
+
+ // Pulsed when TxData_o is valid
+ .TxValid_o( UART_TxValid ),
+ .TxData_o ( UART_TxData ),
+
+ //--- Wishbone interface
+ .STB_ETH_O( WB_STB_ETH ),
+ .STB_PDM_O( WB_STB_PDM ),
+ .STB_PG_O ( WB_STB_PG ),
+ .CYC_O ( WB_CYC ),
+ .ADR_O ( WB_ADR ),
+ .WE_O ( WB_WE ),
+ .DAT_O ( WB_DAT_Wr ),
+ .DAT_I ( WB_DAT_Rd ),
+ .ACK_I ( WB_ACK )
+ );
+
+ //--- Wishbone clients ----------------------------------------------------
+
+ //--- Packet Descriptor Memory --------------------------------------------
+
+ wire [15:0] WB_DAT_Rd_PDM;
+ wire WB_ACK_PDM;
+
+ wire PDM_Rd;
+ wire [13:0] PDM_Addr;
+ wire [31:0] PDM_RdData;
+
+ demo_packet_descriptor_memory demo_packet_descriptor_memory(
+ .Reset_n( Reset_n ),
+ .Clk ( Clk ),
+
+ //--- Wishbone interface
+ .STB_I( WB_STB_PDM ),
+ .CYC_I( WB_CYC ),
+ .ADR_I( WB_ADR ),
+ .WE_I ( WB_WE ),
+ .DAT_I( WB_DAT_Wr ),
+ .DAT_O( WB_DAT_Rd_PDM ),
+ .ACK_O( WB_ACK_PDM ),
+
+ //--- Packet Generator interface
+ // RdData_o is always valid exactly one clock after Addr_i changes
+ // and Rd_i is asserted
+ .Rd_i ( PDM_Rd ),
+ .Addr_i ( PDM_Addr ),
+ .RdData_o( PDM_RdData )
+ );
+
+ //--- Packet Generator ----------------------------------------------------
+
+ wire [15:0] WB_DAT_Rd_PG;
+ wire WB_ACK_PG;
+
+ wire Rx_mac_ra;
+ wire Rx_mac_rd;
+ wire [31:0] Rx_mac_data;
+ wire [1:0] Rx_mac_BE;
+ wire Rx_mac_pa;
+ wire Rx_mac_sop;
+ wire Rx_mac_err;
+ wire Rx_mac_eop;
+
+ wire Tx_mac_wa;
+ wire Tx_mac_wr;
+ wire [31:0] Tx_mac_data;
+ wire [1:0] Tx_mac_BE;
+ wire Tx_mac_sop;
+ wire Tx_mac_eop;
+
+ demo_packet_generator demo_packet_generator(
+ .Reset_n( Reset_n ),
+ .Clk ( Clk ),
+
+ //--- Wishbone interface
+ .STB_I( WB_STB_PG ),
+ .CYC_I( WB_CYC ),
+ .ADR_I( WB_ADR[1:0] ),
+ .WE_I ( WB_WE ),
+ .DAT_I( WB_DAT_Wr ),
+ .DAT_O( WB_DAT_Rd_PG ),
+ .ACK_O( WB_ACK_PG ),
+
+ //--- Packet Descriptor Memory interface
+ // RdData_i is always valid exactly one clock after Addr_o changes
+ // and Rd_o is asserted
+ .Rd_o ( PDM_Rd ),
+ .Addr_o ( PDM_Addr ),
+ .RdData_i( PDM_RdData ),
+
+ //--- User (packet) interface
+ .Rx_mac_ra ( Rx_mac_ra ),
+ .Rx_mac_rd ( Rx_mac_rd ),
+ .Rx_mac_data( Rx_mac_data ),
+ .Rx_mac_BE ( Rx_mac_BE ),
+ .Rx_mac_pa ( Rx_mac_pa ),
+ .Rx_mac_sop ( Rx_mac_sop ),
+ .Rx_mac_err ( Rx_mac_err ),
+ .Rx_mac_eop ( Rx_mac_eop ),
+
+ .Tx_mac_wa ( Tx_mac_wa ),
+ .Tx_mac_wr ( Tx_mac_wr ),
+ .Tx_mac_data( Tx_mac_data ),
+ .Tx_mac_BE ( Tx_mac_BE ),
+ .Tx_mac_sop ( Tx_mac_sop ),
+ .Tx_mac_eop ( Tx_mac_eop )
+ );
+
+ //--- Simple Wishbone client ----------------------------------------------
+
+ reg [15:0] Reg1;
+ reg [15:0] Reg2;
+
+ reg WB_ACK_Reg;
+ reg [15:0] WB_DAT_Reg;
+
+ always @( negedge Reset_n or posedge Clk )
+ if ( ~Reset_n )
+ begin
+ WB_ACK_Reg <= 0;
+ WB_DAT_Reg <= 'b0;
+
+ Reg1 <= 16'h1234;
+ Reg2 <= 16'hABCD;
+ end
+ else
+ begin
+ WB_ACK_Reg <= 0;
+ if ( WB_CYC & ~( WB_STB_ETH | WB_STB_PG | WB_STB_PDM ) )
+ begin
+ WB_ACK_Reg <= 1;
+ if ( WB_WE )
+ begin
+ if ( WB_ADR[0] )
+ Reg2 <= WB_DAT_Wr;
+ else
+ Reg1 <= WB_DAT_Wr;
+ end
+ else
+ begin
+ if ( WB_ADR[0] )
+ WB_DAT_Reg <= Reg2;
+ else
+ WB_DAT_Reg <= Reg1;
+ end
+ end
+ end
+
+ //--- DUT - Ethernet Core -------------------------------------------------
+
+ wire [15:0] WB_DAT_Rd_ETH;
+ wire WB_ACK_ETH;
+
+ wire [2:0] Speed;
+
+ MAC_top dut(
+ // System signals
+ .Clk_125M( Clk_125M ),
+ .Clk_user( Clk ),
+ .Speed ( Speed ),
+
+ // Wishbone compliant core host interface
+ .RST_I( ~Reset_n ),
+ .CLK_I( Clk ),
+ .STB_I( WB_STB_ETH ),
+ .CYC_I( WB_CYC ),
+ .ADR_I( WB_ADR[6:0] ),
+ .WE_I ( WB_WE ),
+ .DAT_I( WB_DAT_Wr ),
+ .DAT_O( WB_DAT_Rd_ETH ),
+ .ACK_O( WB_ACK_ETH ),
+
+ // User (packet) interface
+ .Rx_mac_ra ( Rx_mac_ra ),
+ .Rx_mac_rd ( Rx_mac_rd ),
+ .Rx_mac_data( Rx_mac_data ),
+ .Rx_mac_BE ( Rx_mac_BE ),
+ .Rx_mac_pa ( Rx_mac_pa ),
+ .Rx_mac_sop ( Rx_mac_sop ),
+ .Rx_mac_err ( Rx_mac_err ),
+ .Rx_mac_eop ( Rx_mac_eop ),
+
+ .Tx_mac_wa ( Tx_mac_wa ),
+ .Tx_mac_wr ( Tx_mac_wr ),
+ .Tx_mac_data( Tx_mac_data ),
+ .Tx_mac_BE ( Tx_mac_BE ),
+ .Tx_mac_sop ( Tx_mac_sop ),
+ .Tx_mac_eop ( Tx_mac_eop ),
+
+ // PHY interface (GMII/MII)
+ .Gtx_clk( PHY_GTX_CLK ), // Used only in GMII mode
+ .Rx_clk ( PHY_RXC ),
+ .Tx_clk ( PHY_TXC ), // Used only in MII mode
+ .Tx_er ( PHY_TXER ),
+ .Tx_en ( PHY_TXEN ),
+ .Txd ( PHY_TXD ),
+ .Rx_er ( PHY_RXER ),
+ .Rx_dv ( PHY_RXDV ),
+ .Rxd ( PHY_RXD ),
+ .Crs ( PHY_CRS ),
+ .Col ( PHY_COL ),
+
+ // MDIO interface (to PHY)
+ .Mdio( PHY_MDIO ),
+ .Mdc ( PHY_MDC )
+ );
+
+ //--- Combination of Wishbone read data and acknowledge -------------------
+
+ assign WB_DAT_Rd = ({16{WB_ACK_Reg}} & WB_DAT_Reg ) |
+ ({16{WB_ACK_PDM}} & WB_DAT_Rd_PDM) |
+ ({16{WB_ACK_PG }} & WB_DAT_Rd_PG ) |
+ ({16{WB_ACK_ETH}} & WB_DAT_Rd_ETH);
+
+ assign WB_ACK = WB_ACK_Reg | WB_ACK_PDM | WB_ACK_PG | WB_ACK_ETH;
+
+ assign PHY_RESET_n = Reset_n;
+
+endmodule