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30 Minor documentation edits. dgisselq 3269d 08h /dblclockfft/trunk/bench/cpp/twoc.cpp
29 Checking in a lot of changes here. These changes were focused on two
things primarily: 1st the ability to match, in bench testing, the bench
test to the configuration of the generated FFT. For this purpose, the
fftgen program now creates fftsize.h and ifftsize.h header files. These
header files contain the parameters that were used in the creation of the
various verilog files, and therefore the C++ test benches may now be compiled
to match the test files. The 2nd change is the multiply. Based upon a
set of slides from Xilinx, I rebuilt my shiftaddmpy into a longbimpy.
(Think if 'bimpy' as a 'bi', or two-bit, 'mpy', or multiply.) Longbimpy
depends upon bimpy, an optimized 2xN bit multiply--optimized for 6-bit
LUTs with carry chains. Longbimpy simply expands that capability to a
NxN bit multiply. Sadly, the longbimpy approach increased my area on the
chip when it was supposed to be a cheaper multiply, so I may well take it
back out in the future.
dgisselq 3425d 18h /dblclockfft/trunk/bench/cpp/twoc.cpp
23 Lot's of work to implement a variable means of rounding. The variable
rounding is now implemented within the code, all that's left is to
place a command line option to the generator to choose how values
are to be rounded: either by truncation (drop the lower bits), by
always rounding half up (if the first extra bit is one, go up),
by rounding away from zero (if exactly .5, move away from zero), or
by rounding towards even (if exactly .5, move towards the nearest
even value).

This added an extra clock cycle to each stage, so all of the
test benches needed to be reworked. There is currently no testbench
to test the rounding method itself. This necessitated some
wholescale changes to the testbench code, and the addition
of the twoc.[h|cpp] files. (They were within every piece of code, just
copied from one to the next, this now encapsulates them within their
own file so fixes will propagate to all.) Other changes include creating
testbench classes, adjusting the classes so that one can test what will
happen if the sync isn't added initially, and more. In the end, my
problem was tied to an assumption within fftmain.v that dblstage would
always be a one tick delay, whereas with the one tick of the rounding
function it now becomes a two tick delay .... but the task is done, and
the FFT appears to work again. The maximum sum of square errors (XISQ)
is about half what it was before now, when I use convergent rounding.
dgisselq 3537d 09h /dblclockfft/trunk/bench/cpp/twoc.cpp

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