OpenCores
URL https://opencores.org/ocsvn/minimips_superscalar/minimips_superscalar/trunk

Subversion Repositories minimips_superscalar

[/] [minimips_superscalar/] - Rev 23

Rev

Go to most recent revision

Filtering Options

Clear current filter

Rev Log message Author Age Path
23 Moving the benchmarks folder into the trunk folder. mcafruni 1543d 11h /minimips_superscalar/
22 Wrong code. (fi0.bin) But revealed a bug that needs attention. mcafruni 1543d 11h /minimips_superscalar/
21 Correcting codes that work in behavioral simulation but cause problems with implementation. There must be more to be corrected yet. In analysis ... mcafruni 1543d 11h /minimips_superscalar/
20 I've uncommented wait statement so that the benchmark to be loaded into the simulation. mcafruni 1577d 23h /minimips_superscalar/
19 mcafruni 1911d 15h /minimips_superscalar/
18 clock_gate.vhd: removed.
minimips.vhd: Clock2 input is wrongly connected to the clock signal (Do not ask me how that happened. I'm sorry.). The right thing is to be connected to the clock2 signal. Adjusted.		 mcafruni 1911d 15h /minimips_superscalar/
17 Removing unnecessary clock-gate architecture. mcafruni 1911d 17h /minimips_superscalar/
16 FIR filter with 36 coefficients. (binary to run) mcafruni 1945d 01h /minimips_superscalar/
15 FIR filter with 36 coefficients. mcafruni 1945d 01h /minimips_superscalar/
14 Buble Sort algorithm. Four totally disorderly numbers are sorted in ascending order. Worst performance algorithm. mcafruni 1948d 19h /minimips_superscalar/
13 Buble Sort algorithm. Four totally disorderly numbers are sorted in ascending order. Worst performance algorithm. mcafruni 1948d 19h /minimips_superscalar/
12 Static Fast Fourier Transform COOLEY TUKEY algorithm to 8 samples. The signal must have zeros betwen non null samples to prevent multiplication by real and complex numbers, since the core don't have floating point. mcafruni 1948d 20h /minimips_superscalar/
11 Static Fast Fourier Transform COOLEY TUKEY algorithm to 8 samples. The signal must have zeros betwen non null samples to prevent multiplication by real and complex numbers, since the core don't have floating point. mcafruni 1948d 20h /minimips_superscalar/
10 Matrix/Vector multiplication by constant. (binary) mcafruni 1958d 18h /minimips_superscalar/
9 Matrix/Vector multiplication by constant. mcafruni 1958d 18h /minimips_superscalar/
8 mcafruni 1989d 17h /minimips_superscalar/
7 Uploading missing file 'pps_pf.vhd'. mcafruni 1989d 17h /minimips_superscalar/
6 This is the assembly gasm modified that include a multiplication instruction which operands are 16-bit wide. mcafruni 2002d 05h /minimips_superscalar/
5 6x6 Matrix multiplication (ingenuous algorithm)
msx.bin: uses 16-bit operands multiplication instruction (mult2 rd, rs, rt).
m6x.bin: uses 32-bit operands original multiplication instruction (mult rs, rt) and the move instruction (mflo rd) after.		 mcafruni 2002d 13h /minimips_superscalar/
4 It needs to be tested on more useful and real benchmarks to reveal possible instruction sequences not supported by the architecture. Suggestions are welcome. mcafruni 2002d 14h /minimips_superscalar/

1 2 Next >

Show All

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.