Defines axis_t
, an AXI Stream bus interface that implements several tasks to send and receive data on the bus.
interface axis_t #(parameter DWIDTH = 64) (input clk); logic [DWIDTH-1:0] tdata; logic tvalid; logic tlast; logic tready; modport master (output tdata, output tvalid, output tlast, input tready); modport slave (input tdata, input tvalid, input tlast, output tready);
// Push a word onto the AXI-Stream bus and wait for it to transfer // Args: // - word: The data to push onto the bus // - eop (optional): End of packet (asserts tlast)
// Push a bubble cycle onto the AXI-Stream bus
// Wait for a sample to be transferred on the AXI Stream // bus and return the data and last // Args: // - word: The data pulled from the bus // - eop: End of packet (tlast)
// Wait for a bubble cycle on the AXI Stream bus
// Wait for a packet to finish on the bus
// Push a packet with random data onto to the AXI Stream bus // Args: // - num_samps: Packet size.
// Push a packet with a ramp on to the AXI Stream bus // Args: // - num_samps: Packet size. // - ramp_start: Start value for the ramp // - ramp_inc: Increment per clock cycle
Defines cvita_stream_t
, an AXI Stream bus interface that implements the CHDR protocol and several tasks to send and receive data on the bus.
typedef enum logic [1:0] { DATA=2'b00, FC=2'b01, CMD=2'b10, RESP=2'b11 } cvita_pkt_t; typedef struct packed { logic [31:0] sid; logic [15:0] length; logic [11:0] seqno; logic eob; logic has_time; cvita_pkt_t pkt_type; logic [63:0] timestamp; } cvita_hdr_t;
flatten_chdr_no_ts
: Flatten header struct to a 64-bit bus. No timestamp.unflatten_chdr_no_ts
: Decode a 64-bit header and populate the cvita_hdr_t
struct. No timestamp.unflatten_chdr
: Decode a 64-bit header and populate the cvita_hdr_t
struct. Timestamp supported.interface cvita_stream_t (input clk); axis_t #(.DWIDTH(64)) axis (.clk(clk));
// Push a CVITA header into the stream // Args: // - hdr: The header to push
// Push a word onto the AXI-Stream bus and wait for it to transfer // Args: // - word: The data to push onto the bus // - eop: End of packet (asserts tlast)
// Push a bubble cycle on the AXI-Stream bus
// Wait for a sample to be transferred on the AXI Stream // bus and return the data and last // Args: // - word: The data pulled from the bus // - eop: End of packet (tlast)
// Wait for a bubble cycle on the AXI Stream bus
// Wait for a packet to finish on the bus
// Wait for a packet to finish on the bus and extract the header and payload statistics. typedef struct packed { logic [31:0] count; logic [63:0] sum; logic [63:0] min; logic [63:0] max; logic [63:0] crc; } cvita_stats_t;
// Push a packet with random data onto to the AXI Stream bus // Args: // - num_samps: Packet size. // - hdr: Header to attach to packet (length will be ignored) // - timestamp: Optional timestamp
// Push a packet with a ramp on to the AXI Stream bus // Args: // - num_samps: Packet size. // - ramp_start: Start value for the ramp // - ramp_inc: Increment per clock cycle // - hdr: Header to attach to packet (length will be ignored) // - timestamp: Optional timestamp
Defines the following interfaces to group signals in the AXI4 bus. WIP: No functions or tasks implemented yet.
interface axi4_addr_t #(parameter AWIDTH=32, parameter IDWIDTH=4) (input clk); logic [IDWIDTH-1:0] id; logic [AWIDTH-1:0] addr; logic [7:0] len; logic [2:0] size; logic [1:0] burst; logic lock; logic [3:0] cache; logic [2:0] prot; logic [3:0] qos; logic [3:0] region; logic user; logic valid; logic ready; modport master (output id,addr,len,size,burst,lock,cache,prot,qos,valid, input ready); modport slave (input id,addr,len,size,burst,lock,cache,prot,qos,valid, output ready); endinterface
interface axi4_wdata_t #(parameter DWIDTH=64) (input clk); logic [DWIDTH-1:0] data; logic [(DWIDTH/8)-1:0] strb; logic last; logic user; logic valid; logic ready; modport master(output data,strb,last,valid, input ready); modport slave(input data,strb,last,valid, output ready); endinterface
interface axi4_resp_t #(parameter IDWIDTH=4) (input clk); logic ready; logic [IDWIDTH-1:0] id; logic [1:0] resp; logic user; logic valid; modport master(output ready, input id,resp,valid); modport slave(input ready, output id,resp,valid); endinterface
interface axi4_rdata_t #(parameter DWIDTH=64, parameter IDWIDTH=4) (input clk); logic ready; logic [IDWIDTH-1:0] id; logic [DWIDTH-1:0] data; logic [1:0] resp; logic user; logic last; logic valid; modport master(output ready, input id,data,resp,last,valid); modport slave(input ready, output id,data,resp,last,valid); endinterface
interface axi4_wr_t #(parameter DWIDTH=64, parameter AWIDTH=32, parameter IDWIDTH=4) (input clk); axi4_addr_t #(.AWIDTH(AWIDTH), .IDWIDTH(IDWIDTH)) addr (.clk(clk)); axi4_wdata_t #(.DWIDTH(DWIDTH)) data (.clk(clk)); axi4_resp_t #(.IDWIDTH(IDWIDTH)) resp (.clk(clk)); modport master(output addr, output data, input resp); modport slave(input addr, input data, output resp); endinterface
interface axi4_rd_t #(parameter DWIDTH=64, parameter AWIDTH=32, parameter IDWIDTH=4) (input clk); axi4_addr_t #(.AWIDTH(AWIDTH), .IDWIDTH(IDWIDTH)) addr (.clk(clk)); axi4_rdata_t #(.DWIDTH(DWIDTH), .IDWIDTH(IDWIDTH)) data (.clk(clk)); modport master(output addr, output data); modport slave(input addr, input data); endinterface