X-Git-Url: https://git.libre-soc.org/?a=blobdiff_plain;ds=sidebyside;f=docs.mdwn;h=18056542cac3ce42d96d8f435fe651e212b4c282;hb=ebbb5e34e536208a3b2cb476d340b0322b299e71;hp=e076a6ba1edb59b33af9899610382d1044f04e66;hpb=51f2234a22a7efcb930f8a5eff96e25cb6e1caef;p=libreriscv.git

diff --git a/docs.mdwn b/docs.mdwn
index e076a6ba1..18056542c 100644
--- a/docs.mdwn
+++ b/docs.mdwn
@@ -3,7 +3,7 @@
 A draft version of the specification is available at
 <https://ftp.libre-soc.org/power-spec-draft.pdf>
 
-## Codebase Structure
+# Codebase Structure
 
 The SOC is partitioned into four repositories. The subrepositories are
 intended as general purpose standalone projects useful outside of LibreSOC. For example,
@@ -17,10 +17,7 @@ construction of FSMs and arbitrary length pipelines.
 | [nmutil](https://git.libre-soc.org/?p=nmutil.git;a=tree) | [nmutil](https://docs.libre-soc.org/nmutil/) | Equivalent to Chisel3.util | [libresoc-nmutil](https://pypi.org/project/libresoc-nmutil) |
 | [OpenPOWER ISA](https://git.libre-soc.org/?p=nmutil.git;a=tree) | [OpenPOWER ISA](https://docs.libre-soc.org/openpower-isa/) | Simulator, ISA spec compiler, co-simulation infrastructure |  [libresoc-openpower-isa](https://pypi.org/project/libresoc-openpower-isa/)  |
 
-
-Also see [[SOC Architecture|3d_gpu/architecture]]
-
-## Installing the Codebase
+# Installing the Codebase
 
 Installation is much easier when using the
 [install scripts](https://git.libre-soc.org/?p=dev-env-setup.git;a=blob;f=hdl-dev-repos;hb=HEAD).
@@ -37,31 +34,29 @@ For a simple set of commands to follow, see [[HDL_workflow/devscripts]]. If
 you prefer to do a manual install and explicitly install dependencies
 yourself, in order to verify them, see [[HDL_workflow]]
 
-## Gtkwave Tutorial
-
-[[docs/gtkwave_tutorial]]
-
-## Formal proof notes
-
-[[docs/notes_on_formal_proofs]]
-
-## Learning nmigen
-
-[[docs/learning_nmigen]]
+# Tutorials and documentation
 
-## Test API
+* [[SOC Architecture|3d_gpu/architecture]]
+* Gtkwave Tutorial [[docs/gtkwave_tutorial]]
+* Formal proof notes [[docs/notes_on_formal_proofs]]
+* Learning nmigen [[docs/learning_nmigen]]
+* Test API [[docs/testapi]]
+* Pinmux and JTAG Boundary Scan [[docs/pinmux]]
+* pypowersim python-based command-line simulator [[docs/pypowersim]]
+* First steps [[docs/firststeps]]
+* Adding an instruction [[docs/adding_instr]] - see also below
 
-[[docs/testapi]]
+# SVP64
 
-## Pinmux and JTAG Boundary Scan
-
-[[docs/pinmux]]
-
-## pypowersim python-based command-line simulator
+Currently in Draft form, [[openpower/sv/svp64]] is the basis of the
+Supercomputing Cray-style Vectorisation of the Power ISA.
 
-[[docs/pypowersim]]
+# Checklist for adding an instruction
 
-## SVP64
+TODO.  use the commit diffs for these instructions as a guide
 
-Currently in Draft form, [[openpower/sv/svp64]] is the basis of the
-Supercomputing Cray-style Vectorisation of the Power ISA.
+* fmvis <https://bugs.libre-soc.org/show_bug.cgi?id=887>
+* avgadd etc. <https://bugs.libre-soc.org/show_bug.cgi?id=863>
+* int min/max <https://bugs.libre-soc.org/show_bug.cgi?id=234#c1>
+* ternlogi <https://bugs.libre-soc.org/show_bug.cgi?id=745> which included
+  adding a hardware implementation as well