*redirects* encoding, to *different* engines, fortunately in a deliberately
mutually-exclusive fashion.
-> that particular lead that:
->
-> * MISA Extension disabling is permitted (optionally) to DESTROY the state
-> information (which means that it *has* to be re-initialised just to be
-> safe... mistake in the standard, there), and * MISA was only designed
-> to cover Standard Extensions.
->
-> So the practice of switching extensions in and out - and the resultant
-> "disablement" and "enablement" at the *instruction decode phase* is
-> *already* a hard requirement as part of conforming with the present
-> RISC-V Specification.
->
-> Around the same MISA discussion, someone else also kindly pointed out
-> that one solution to the heavyweight nature of the switching would
-> be to deliberately introduce a pipeline stall whilst the switching is
-> occurring: I can see the sense in that approach, even if I don't know the
-> full details of what each implementor might choose to do. They may even
-> choose two, or three, or N pipeline stalls: it really doesn't matter,
-> as it's an implementors' choice (and problem to solve).
->
-> So yes it's pretty heavy-duty... and also already required.
->
-> For the case where "legacy" variants of the RISC-V Standard are
-> backwards-forwards-compatibly supported over a 10-20 year period
-> in Industrial and Military/Goverment-procurement scenarios (so that
-> the impossible-to-achieve pressure is off to get the spec ABSOLUTELY
-> correct, RIGHT now), nobody would expect a seriously heavy-duty amount
-> of instruction-by-instruction switching: it'd be used pretty much once
-> and only once at boot-up (or once in a Hypervisor Virtual Machine client)
-> and that's it.
->
-> I can however foresee instances where implementors would actually
-> genuinely want a bank of operations to be carried out using one extension,
-> followed immediately by another bank from a (conflicting binary-encoding)
-> extension, in an inner loop: Software-defined MPEG / MP4 decode to call
-> DCT block decode Custom Extension followed immediately by Custom Video
-> Processing Extension followed immediately by Custom DSP Processing
-> Extension to do YUV-to-RGB conversion for example is something that
-> is clearly desirable. Solving that one would be entiiirely their
-> problem... and the RISC-V Specification really really should give them
-> the space to do that in a clear-cut unambiguous way.
+Implementations would therefore, in each Extension (assuming one separate
+"decode" engine per Extension), simply have an extra (mutually-exclusively
+enabled) wire in the AND gate for any given binary encoding, and in this
+way there would actually be very little impact on the latency. The assumption
+here is that there are not dozens of Extensions vying for the same binary
+encoding (at which point the Fabless Semi Company has other much more
+pressing issues to deal with that make resolving encoding conflicts trivial
+by comparison).
+
+Also pointed out was that in certain cases pipeline stalls could be introduced
+during the switching phase, if needed.
+
+**This is the only one of the proposals that meet the full requirements**
# ioctl-like
TBD - [[ioctl]] for full details, summary kept here
+This proposal basically mirrors the concept of POSIX ioctls, providing
+(arbitrarily) 8 functions (opcodes) whose meaning may be over-ridden
+in an object-orientated fashion by calling an "open handle" (and close)
+function (instruction) that switches (redirects) the 8 functions over to
+different opcodes.
+
+The proposal is functionally near-identical to that of the mvendor/march-id
+except extended down to individual opcodes. As such it could hypothetically
+be proposed as an independent Standard Extension in its own right that extends
+the Custom Opcode space *or* fits into the brownfield spaces within the
+existing ISA opcode space.
+
+One of the reasons for seeking an extension of the Custom opcode space is
+that the Custom opcode space is severely limited: only 2 opcodes are free
+within the 32-bit space, and only four total remain in the 48 and 64-bit
+space.
+
+Despite the proposal (which is still undergoing clarification)
+being worthwhile in its own right, and standing on its own merits and
+thus definitely worthwhile pursuing, it is non-trivial and much more
+invasive than the mvendor/march-id WARL concept.
+
# Discussion and analysis
TBD
# Conclusion
-TBD
+In the early sections (those in the category "no action") it was established
+in each case that the problem is not solved. Avoidance of responsibility,
+or conflation of "not our problem" with "no problem" does not make "problem"
+go away.
+
+The first idea considered which could fix the problem was to just use
+the pre-existing MISA CSR, however this was determined not to have
+the right coverage (Standard Extensions only), and also crucially it
+destroyed state. Whilst unworkable it did lead to the first "workable"
+solution, "MISA-like".
+
+The "MISA-like" proposal, whilst meeting most of the requirements, led to
+a better idea: "mvendor/march-id WARL", which, in combination with an offshoot
+idea related to gcc and binutils, is the only proposal that fully meets the
+requirements.
+
+The "ioctl-like" idea *also* solves the problem, but, unlike the WARL idea
+does not meet the full requirements to be "non-invasive" and "backwards
+compatible" with pre-existing (pre-Standards-finalised) implementations.
+It does however stand on its own merit as a way to extend the extremely
+small Custom Extension opcode space, even if it itself implemented *as*
+a Custom Extension.
+
+Overall the mvendor/march-id WARL idea meets the three requirements,
+and is the only idea that meets the three requirements:
+
+* **Any proposal must be a minimal change with minimal (or zero) impact**
+ (met through being purely a single change to the specification:
+ mvendor/march-id changes from read-only to WARL)
+* **Any proposal should place no restriction on existing or future
+ ISA encoding space**
+ (met because it is just a change to one pre-existing CSR)
+* **Any proposal should take into account that there are existing implementors
+ of the (yet to be finalised but still "partly frozen") Standard who may
+ resist, for financial investment reasons, efforts to make any change
+ (at all) that could cost them immediate short-term profits.**
+ (met because existing implementations, with the exception of those
+ that have Custom Extensions, come under the "vendor/arch-id read only
+ is a declaration of having no Custom Extensions" fall-back category)
+
+So to summarise:
+
+* The consequences of not tackling this are severe: the RISC-V Foundation
+ cannot take a back seat. If it does, clear historical precedent shows
+ 100% what the outcome will be (1).
+* The retro-fitting cost onto existing implementations (even though the
+ specification has not been finalised) is negligeable
+ (changes to words in the specification);
+* The benefits are clear (pain-free transition path for vendors to safely
+ upgrade over time; no fights over Custom opcode space; no hassle for
+ software toolchain; no hassle for GNU/Linux Distros)
+* The implementation details are clear (and problem-free except for
+ vendors who insist on deploying dozens of conflicting Custom Extensions:
+ an extreme unlikely outlier).
# Conversation Exerpts
> and typically the choice was "neither". Nobody wants to put in the
> effort when there is uncertainty and a market fragmented into
> small bits.
+>
> Note how Intel did not screw up. When SSE was added, MMX remained.
> Software vendors could trust that instructions would be supported.
> Both MMX and SSE remain today, in all shipping processors. With very