78 lines
2.8 KiB
Plaintext
78 lines
2.8 KiB
Plaintext
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package PackUnpack;
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import Vector::*;
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import FIFOF::*;
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import SpecialFIFOs::*;
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import GetPut::*;
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import ClientServer::*;
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// mkPacker makes a server that converts data_in values into one or
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// more data_out values, both of which must be in the Bits
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// typeclass. The packing is implemented by taking the bit
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// representation of data_in and striping it across as many data_outs
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// as needed to preserve all the bytes. If data_in is not an exact
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// multiple of data_out, the final data_out is padded with zeros.
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module mkPacker(Server#(data_in, data_out))
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provisos(Bits#(data_in, data_in_bits),
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Bits#(data_out, data_out_bits),
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Div#(data_in_bits, data_out_bits, data_out_elts),
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Min#(data_out_elts, 1, 1),
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Log#(TAdd#(data_out_elts, 1), data_out_elts_cnt),
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Add#(data_in_bits, _pad, TMul#(data_out_elts, data_out_bits)));
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let data_out_elts = valueOf(data_out_elts);
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Reg#(Vector#(data_out_elts, data_out)) vals_out <- mkRegU();
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Reg#(UInt#(data_out_elts_cnt)) num_vals <- mkReg(0);
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FIFOF#(data_out) out <- mkBypassFIFOF();
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rule push_out (num_vals > 0);
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out.enq(vals_out[0]);
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vals_out <= shiftOutFrom0(unpack(0), vals_out, 1);
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num_vals <= num_vals-1;
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endrule
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interface Put request;
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method Action put(di) if (num_vals == 0);
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vals_out <= reverse(unpack(extend(pack(di))));
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num_vals <= fromInteger(data_out_elts);
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endmethod
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endinterface
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interface response = toGet(out);
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endmodule
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// mkUnpacker makes a server that converts one or more data_in values
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// into a data_out value. Both data_in and data_out must be in the
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// Bits typeclass. The unpacking is implemented by concatenating the
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// bit representation of consecutive data_in values until enough bits
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// have been accumulated to represent one data_out. If data_out is not
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// an exact multiple of data_in, the unneeded upper bits of the final
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// data_in are discarded.
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module mkUnpacker(Server#(data_in, data_out))
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provisos(Bits#(data_in, data_in_bits),
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Bits#(data_out, data_out_bits),
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Div#(data_out_bits, data_in_bits, data_in_elts),
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Min#(data_in_elts, 1, 1),
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Log#(TAdd#(data_in_elts, 1), data_in_elts_cnt),
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Add#(data_out_bits, _pad, TMul#(data_in_elts, data_in_bits)));
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Reg#(Vector#(data_in_elts, data_in)) vals_in <- mkRegU();
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Reg#(UInt#(data_in_elts_cnt)) num_vals <- mkReg(0);
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FIFOF#(data_out) out <- mkBypassFIFOF();
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rule push_out (num_vals == fromInteger(valueOf(data_in_elts)));
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out.enq(unpack(truncate(pack(vals_in))));
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num_vals <= 0;
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endrule
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interface Put request;
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method Action put(di) if (num_vals < fromInteger(valueOf(data_in_elts)));
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vals_in <= shiftInAt0(vals_in, di);
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num_vals <= num_vals+1;
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endmethod
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endinterface
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interface response = toGet(out);
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endmodule
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endpackage
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