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[/] [spacewiresystemc/] [trunk/] [altera_work/] [spw_fifo_ulight/] [ulight_fifo/] [synthesis/] [submodules/] [altera_merlin_burst_adapter.sv] - Rev 40
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// (C) 2001-2017 Intel Corporation. All rights reserved.
// Your use of Intel Corporation's design tools, logic functions and other
// software and tools, and its AMPP partner logic functions, and any output
// files from any of the foregoing (including device programming or simulation
// files), and any associated documentation or information are expressly subject
// to the terms and conditions of the Intel Program License Subscription
// Agreement, Intel FPGA IP License Agreement, or other applicable
// license agreement, including, without limitation, that your use is for the
// sole purpose of programming logic devices manufactured by Intel and sold by
// Intel or its authorized distributors. Please refer to the applicable
// agreement for further details.
`timescale 1 ns / 1 ns
// -----------------------------------------------------
// Top level for the burst adapter. This selects the
// implementation for the adapter, based on the
// parameterization.
// -----------------------------------------------------
module altera_merlin_burst_adapter
#(
parameter
// Indicates the implementation to instantiate:
// "13.1" means the slow, inexpensive generic burst converter.
// "new" means the fast, expensive per-burst converter.
ADAPTER_VERSION = "13.1",
// Indicates if this adapter needs to support read bursts
// (almost always true).
COMPRESSED_READ_SUPPORT = 1,
// Standard Merlin packet parameters that indicate
// field position within the packet
PKT_BEGIN_BURST = 81,
PKT_ADDR_H = 79,
PKT_ADDR_L = 48,
PKT_BYTE_CNT_H = 5,
PKT_BYTE_CNT_L = 0,
PKT_BURSTWRAP_H = 11,
PKT_BURSTWRAP_L = 6,
PKT_TRANS_COMPRESSED_READ = 14,
PKT_TRANS_WRITE = 13,
PKT_TRANS_READ = 12,
PKT_BYTEEN_H = 83,
PKT_BYTEEN_L = 80,
PKT_BURST_TYPE_H = 88,
PKT_BURST_TYPE_L = 87,
PKT_BURST_SIZE_H = 86,
PKT_BURST_SIZE_L = 84,
ST_DATA_W = 89,
ST_CHANNEL_W = 8,
// Component-specific parameters. Explained
// in the implementation levels
IN_NARROW_SIZE = 0,
NO_WRAP_SUPPORT = 0,
INCOMPLETE_WRAP_SUPPORT = 1,
BURSTWRAP_CONST_MASK = 0,
BURSTWRAP_CONST_VALUE = -1,
OUT_NARROW_SIZE = 0,
OUT_FIXED = 0,
OUT_COMPLETE_WRAP = 0,
BYTEENABLE_SYNTHESIS = 0,
PIPE_INPUTS = 0,
OUT_BYTE_CNT_H = 5,
OUT_BURSTWRAP_H = 11
)
(
input clk,
input reset,
// -------------------
// Command Sink (Input)
// -------------------
input sink0_valid,
input [ST_DATA_W-1 : 0] sink0_data,
input [ST_CHANNEL_W-1 : 0] sink0_channel,
input sink0_startofpacket,
input sink0_endofpacket,
output reg sink0_ready,
// -------------------
// Command Source (Output)
// -------------------
output wire source0_valid,
output wire [ST_DATA_W-1 : 0] source0_data,
output wire [ST_CHANNEL_W-1 : 0] source0_channel,
output wire source0_startofpacket,
output wire source0_endofpacket,
input source0_ready
);
localparam PKT_BURSTWRAP_W = PKT_BURSTWRAP_H - PKT_BURSTWRAP_L + 1;
generate if (COMPRESSED_READ_SUPPORT == 0) begin : altera_merlin_burst_adapter_uncompressed_only
// -------------------------------------------------------------------
// The reduced version of the adapter is only meant to be used on
// non-bursting wide to narrow links.
// -------------------------------------------------------------------
altera_merlin_burst_adapter_uncompressed_only #(
.PKT_BYTE_CNT_H (PKT_BYTE_CNT_H),
.PKT_BYTE_CNT_L (PKT_BYTE_CNT_L),
.PKT_BYTEEN_H (PKT_BYTEEN_H),
.PKT_BYTEEN_L (PKT_BYTEEN_L),
.ST_DATA_W (ST_DATA_W),
.ST_CHANNEL_W (ST_CHANNEL_W)
) burst_adapter (
.clk (clk),
.reset (reset),
.sink0_valid (sink0_valid),
.sink0_data (sink0_data),
.sink0_channel (sink0_channel),
.sink0_startofpacket (sink0_startofpacket),
.sink0_endofpacket (sink0_endofpacket),
.sink0_ready (sink0_ready),
.source0_valid (source0_valid),
.source0_data (source0_data),
.source0_channel (source0_channel),
.source0_startofpacket (source0_startofpacket),
.source0_endofpacket (source0_endofpacket),
.source0_ready (source0_ready)
);
end
else if (ADAPTER_VERSION == "13.1") begin : altera_merlin_burst_adapter_13_1
// -----------------------------------------------------
// This is the generic converter implementation, which attempts
// to convert all burst types with a generalized conversion
// function. This results in low area, but low fmax.
// -----------------------------------------------------
altera_merlin_burst_adapter_13_1 #(
.PKT_BEGIN_BURST (PKT_BEGIN_BURST),
.PKT_ADDR_H (PKT_ADDR_H ),
.PKT_ADDR_L (PKT_ADDR_L),
.PKT_BYTE_CNT_H (PKT_BYTE_CNT_H),
.PKT_BYTE_CNT_L (PKT_BYTE_CNT_L ),
.PKT_BURSTWRAP_H (PKT_BURSTWRAP_H),
.PKT_BURSTWRAP_L (PKT_BURSTWRAP_L),
.PKT_TRANS_COMPRESSED_READ (PKT_TRANS_COMPRESSED_READ),
.PKT_TRANS_WRITE (PKT_TRANS_WRITE),
.PKT_TRANS_READ (PKT_TRANS_READ),
.PKT_BYTEEN_H (PKT_BYTEEN_H),
.PKT_BYTEEN_L (PKT_BYTEEN_L),
.PKT_BURST_TYPE_H (PKT_BURST_TYPE_H),
.PKT_BURST_TYPE_L (PKT_BURST_TYPE_L),
.PKT_BURST_SIZE_H (PKT_BURST_SIZE_H),
.PKT_BURST_SIZE_L (PKT_BURST_SIZE_L),
.IN_NARROW_SIZE (IN_NARROW_SIZE),
.BYTEENABLE_SYNTHESIS (BYTEENABLE_SYNTHESIS),
.OUT_NARROW_SIZE (OUT_NARROW_SIZE),
.OUT_FIXED (OUT_FIXED),
.OUT_COMPLETE_WRAP (OUT_COMPLETE_WRAP),
.ST_DATA_W (ST_DATA_W),
.ST_CHANNEL_W (ST_CHANNEL_W),
.BURSTWRAP_CONST_MASK (BURSTWRAP_CONST_MASK),
.BURSTWRAP_CONST_VALUE (BURSTWRAP_CONST_VALUE),
.PIPE_INPUTS (PIPE_INPUTS),
.NO_WRAP_SUPPORT (NO_WRAP_SUPPORT),
.OUT_BYTE_CNT_H (OUT_BYTE_CNT_H),
.OUT_BURSTWRAP_H (OUT_BURSTWRAP_H)
) burst_adapter (
.clk (clk),
.reset (reset),
.sink0_valid (sink0_valid),
.sink0_data (sink0_data),
.sink0_channel (sink0_channel),
.sink0_startofpacket (sink0_startofpacket),
.sink0_endofpacket (sink0_endofpacket),
.sink0_ready (sink0_ready),
.source0_valid (source0_valid),
.source0_data (source0_data),
.source0_channel (source0_channel),
.source0_startofpacket (source0_startofpacket),
.source0_endofpacket (source0_endofpacket),
.source0_ready (source0_ready)
);
end
else begin : altera_merlin_burst_adapter_new
// -----------------------------------------------------
// This is the per-burst-type converter implementation. This attempts
// to convert bursts with specialized functions for each burst
// type. This typically results in higher area, but higher fmax.
// -----------------------------------------------------
altera_merlin_burst_adapter_new #(
.PKT_BEGIN_BURST (PKT_BEGIN_BURST),
.PKT_ADDR_H (PKT_ADDR_H ),
.PKT_ADDR_L (PKT_ADDR_L),
.PKT_BYTE_CNT_H (PKT_BYTE_CNT_H),
.PKT_BYTE_CNT_L (PKT_BYTE_CNT_L ),
.PKT_BURSTWRAP_H (PKT_BURSTWRAP_H),
.PKT_BURSTWRAP_L (PKT_BURSTWRAP_L),
.PKT_TRANS_COMPRESSED_READ (PKT_TRANS_COMPRESSED_READ),
.PKT_TRANS_WRITE (PKT_TRANS_WRITE),
.PKT_TRANS_READ (PKT_TRANS_READ),
.PKT_BYTEEN_H (PKT_BYTEEN_H),
.PKT_BYTEEN_L (PKT_BYTEEN_L),
.PKT_BURST_TYPE_H (PKT_BURST_TYPE_H),
.PKT_BURST_TYPE_L (PKT_BURST_TYPE_L),
.PKT_BURST_SIZE_H (PKT_BURST_SIZE_H),
.PKT_BURST_SIZE_L (PKT_BURST_SIZE_L),
.IN_NARROW_SIZE (IN_NARROW_SIZE),
.BYTEENABLE_SYNTHESIS (BYTEENABLE_SYNTHESIS),
.OUT_NARROW_SIZE (OUT_NARROW_SIZE),
.OUT_FIXED (OUT_FIXED),
.OUT_COMPLETE_WRAP (OUT_COMPLETE_WRAP),
.ST_DATA_W (ST_DATA_W),
.ST_CHANNEL_W (ST_CHANNEL_W),
.BURSTWRAP_CONST_MASK (BURSTWRAP_CONST_MASK),
.BURSTWRAP_CONST_VALUE (BURSTWRAP_CONST_VALUE),
.PIPE_INPUTS (PIPE_INPUTS),
.NO_WRAP_SUPPORT (NO_WRAP_SUPPORT),
.INCOMPLETE_WRAP_SUPPORT (INCOMPLETE_WRAP_SUPPORT),
.OUT_BYTE_CNT_H (OUT_BYTE_CNT_H),
.OUT_BURSTWRAP_H (OUT_BURSTWRAP_H)
) burst_adapter (
.clk (clk),
.reset (reset),
.sink0_valid (sink0_valid),
.sink0_data (sink0_data),
.sink0_channel (sink0_channel),
.sink0_startofpacket (sink0_startofpacket),
.sink0_endofpacket (sink0_endofpacket),
.sink0_ready (sink0_ready),
.source0_valid (source0_valid),
.source0_data (source0_data),
.source0_channel (source0_channel),
.source0_startofpacket (source0_startofpacket),
.source0_endofpacket (source0_endofpacket),
.source0_ready (source0_ready)
);
end
endgenerate
// synthesis translate_off
// -----------------------------------------------------
// Simulation-only check for incoming burstwrap values inconsistent with
// BURSTWRAP_CONST_MASK, which would indicate a paramerization error.
//
// Should be turned into an assertion, really.
// -----------------------------------------------------
always @(posedge clk or posedge reset) begin
if (~reset && sink0_valid &&
BURSTWRAP_CONST_MASK[PKT_BURSTWRAP_W - 1:0] &
(BURSTWRAP_CONST_VALUE[PKT_BURSTWRAP_W - 1:0] ^ sink0_data[PKT_BURSTWRAP_H : PKT_BURSTWRAP_L])
) begin
$display("%t: %m: Error: burstwrap value %X is inconsistent with BURSTWRAP_CONST_MASK value %X", $time(), sink0_data[PKT_BURSTWRAP_H : PKT_BURSTWRAP_L], BURSTWRAP_CONST_MASK[PKT_BURSTWRAP_W - 1:0]);
end
end
// synthesis translate_on
endmodule