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-# A2O
-
-# Current Status
-
-* for now, /rel is the original and /dev has updates:
-
- * compiles with verilator, iverilog, yosys
- * runs simple version of kernel/bios/random test with cocotb (A2L2 interface partially implemented in Python) and Verilog core wrappers (A2L2<->mem/wb interfaces)
- * wrapper converts A2L2 interface to mem and Wishbone interfaces
- * verilator now runs with a2o_litex
-
-## To Do
-
- * continue with cocotb testing
- * experiment with parameters to create smaller version(s) for OpenLane
-
-# Original Release
-
-## The Project
-This is the release of the A2O POWER processor core RTL and associated FPGA implementation (using ADM-PCIE-9V3 FPGA).
-
-See [Project Info](rel/readme.md) for details.
-
-## The Core
-The [A2O core](rel/doc/A2O_UM.pdf) was created to optimize single-thread performance, and targeted 3+ GHz in 45nm technology.
-
-It is a 27 FO4 implementation, with an out-of-order pipeline supporting 1 or 2 threads. It fully supports Power ISA 2.07 using Book III-E.
-The core was also designed to support pluggable implementations of MMU and AXU logic macros.
-This includes elimination of the MMU and using ERAT-only mode for translation/protection.
-
-## The History
-
-The A2O design was a follow-on to A2I, written in Verilog, and supported a lower thread count than A2I, but higher performance per thread, using out-of-order execution
-(register renaming, reservation stations, completion buffer) and a store queue.
-
-The A2L2 external interface is largely the same for the two cores.
-
-## FPGA Implementation Notes
-
-1. There are lots of knobs available for tweaking generation parameters. Very little experimentation was done to test whether they work, or the effects on area, etc.
-2. Only single-thread generation has been done so far. The FPGA in use has very high utilization with one thread.
-3. A2I used clk_1x and clk_2x (for some of the special arrays), but A2O also uses clk_4x. This (and possibly along with the area congestion) led to changing the clk_1x to 50MHz to lessen timing pressure
-(both setup and hold misses).
-
-### Technology Scaling
-
-A comparison of the design in original technology and scaled to 7nm (SMT2, fixed-point, no MMU):
-
-| |Freq |Pwr |Freq Sort|Pwr Sort|Area |Vdd |
-|-----:|---------|-------|---------|--------|---------|-------|
-|45nm |2.30 GHz |1.49 W | | |4.90 mm2 |0.97 V |
-| 7nm |3.90 GHz |0.79 W |4.17 GHz |0.85 W |0.31 mm2 |1.1 V |
-| 7nm |3.75 GHz |0.63 W |4.03 GHz |0.67 W |0.31 mm2 |1.0 V |
-| 7nm |3.55 GHz |0.49 W |3.87 GHz |0.52 W |0.31 mm2 |0.9 V |
-| 7nm |3.07 GHz |0.32 W |3.60 GHz |0.38 W |0.31 mm2 |0.8 V |
-| 7nm |2.40 GHz |0.20 W |3.00 GHz |0.25 W |0.31 mm2 |0.7 V |
-
-These estimates are based on a semicustom design in representative foundry processes (IBM 45nm/Samsung 7nm).
-
-### Compliancy
-
-The A2O core is compliant to Power ISA 2.07 and will need updates to be compliant with either version 3.0c or 3.1.
-Power ISA 3.0c and 3.1 are the two Power ISA versions contributed to OpenPOWER Foundation by IBM. Changes will include:
-
-* radix translation
-* op updates, to eliminate noncompliant ones and add missing ones required for a given compliancy level
-* various 'mode' and other changes to meet the open specification targeted compliancy level (III-E needs to be changed to III)
-
-## Miscellaneous
-
-1. A2O was not released as a product; the documentation was derived from A2I but is *much* less complete than the A2I version.
-The documentation has been edited and updated where possible, but undoubtedly, there
-remain errors vis a vis the RTL (especially likely in implementation-specific SPRs).
-
- Please use 'issues' to report errors.
-
-## Errata
-
-1. There is a problem that is being circumvented by setting LSUCR0.DFWD=1, AND limiting the store queue size (currently at 4). While it appears
-to be directly related to forwarding (L1 DC hit returns 0's instead of data), the store queue size also had to be limited.
-
- Not debugged at this time; could be related to:
- 1. bad generation parm
- 2. bad edit for source updates related to compiling for Vivado
- 3. ???
-