Commit Graph

218 Commits

Author SHA1 Message Date
whitequark e7ad209b15 cxxrtl: correctly handle `sync always` rules.
Fixes #1948.
2020-04-17 09:43:13 +00:00
whitequark 06c0338f2c cxxrtl: make ROMs writable, document memory::operator[].
There is no practical benefit from using `const memory` for ROMs;
it uses an std::vector internally, which prevents contemporary
compilers from constant-propagating ROM contents. (It is not clear
whether they are permitted to do so.)

However, there is a major benefit from using non-const `memory` for
ROMs, which is the ability to dynamically fill the ROM for each
individual simulation.
2020-04-16 16:45:54 +00:00
whitequark 9043632dcc cxxrtl: fix misleading example, caution about race conditions.
Fixes #1944.
2020-04-16 16:45:54 +00:00
whitequark 58e89cd368 cxxrtl: remove inaccurate comment. NFC. 2020-04-16 16:45:54 +00:00
David Shah 3b85b7c57a cxxrtl: Fix handling of unclocked memory read ports
Signed-off-by: David Shah <dave@ds0.me>
2020-04-14 20:39:13 +01:00
whitequark d8f2a1fda0
Merge pull request #1922 from whitequark/write_cxxrtl-disconnected-outputs
write_cxxrtl: ignore disconnected module ports
2020-04-14 14:37:48 +00:00
whitequark 0d0bf9c4a2 write_cxxrtl: ignore disconnected module ports.
E.g. port `q` in `submod x(.p(p), .q());`.

Fixes #1920.
2020-04-14 12:36:20 +00:00
whitequark 102fb5424f write_cxxrtl: enable separate compilation.
This commit makes it possible to use several cxxrtl-generated files
in one application, as well as compiling cxxrtl-generated code as
a separate compilation unit.
2020-04-14 12:07:58 +00:00
whitequark 4737f426ff write_cxxrtl: add basic documentation. 2020-04-09 04:08:36 +00:00
whitequark 753e34007d write_cxxrtl: add support for $dlatch and $dlatchsr cells.
Also, fix codegen for $dffe and $adff.
2020-04-09 04:08:36 +00:00
whitequark 711df56ad0 write_cxxrtl: add support for $sr cell.
Also, fix the semantics of SET/CLR inputs of the $dffsr cell, and
fix the scheduling of async FF cells to consider ARST/SET/CLR->Q
as a forward combinatorial arc.
2020-04-09 04:08:36 +00:00
whitequark 9534b51277 write_cxxrtl: add support for $slice and $concat cells. 2020-04-09 04:08:36 +00:00
whitequark 01e6850bd3 write_cxxrtl: improve writable memory handling.
This commit reduces space and time overhead for writable memories
to O(write port count) in both cases; implements handling for write
port priorities; and simplifies runtime representation of memories.
2020-04-09 04:08:36 +00:00
whitequark fb0270b752 write_cxxrtl: add support for hierarchical designs.
Hierarchical design simulations are generally much slower, but this
comes with a major increase in flexibility:
 1. Since the `flatten` pass currently does not support flattening
    of designs with processes, this is the only way to simulate such
    designs with cxxrtl.
 2. Support for hierarchy paves way for simulation black boxes,
    which are necessary for e.g. replacing PHYs with C++ code that
    integrates with the host system.
2020-04-09 04:08:36 +00:00
whitequark 3376dcf37c write_cxxrtl: avoid undefined behavior on out-of-bounds memory access.
After this commit, if NDEBUG is not defined, out-of-bounds accesses
cause assertion failures for reads and writes. If NDEBUG is defined,
out-of-bounds reads return zeroes, and out-of-bounds writes are
ignored.

This commit also adds support for memories that start with a non-zero
index (`Memory::start_offset` in RTLIL).
2020-04-09 04:08:36 +00:00
whitequark 5157691f0e write_cxxrtl: statically schedule comb logic and localize wires.
This results in further massive gains in performance, modest decrease
in compile time, and, for designs without feedback arcs, makes it
possible to run eval() once per clock edge in certain conditions.
2020-04-09 04:08:36 +00:00
whitequark d6d7273421 write_cxxrtl: elide wires for results of comb cells used once.
This results in massive gains in performance, equally massive
reduction in compile time, and improved readability.
2020-04-09 04:08:36 +00:00
whitequark d20e971725 write_cxxrtl: new backend.
This commit adds a basic implementation that isn't very performant
but implements most of the planned features.
2020-04-09 04:08:36 +00:00