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Some additional support for higher order objects #783

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@karlosz karlosz commented Dec 9, 2021

  • Add enough support to make building an order 2 object with a native CCNOT gate work.
  • Plumb enough internals to get trivial compilation working. Compression does not work for higher order objects currently.
  • Since we don't have universal compilation onto higher order objects, instrument the instruction nativizer to bail out instead of infinite looping when appropriate instruction sequences cannot be found. It's also useful to have this guard for lower order chip compilations, since there may be other unexpected reasons why instruction expanders cycle or recurse.
  • Add a simple test to keep functionality from regressing.

This addresses some preliminaries of issue #438.

@karlosz karlosz marked this pull request as draft December 9, 2021 22:40
There were a couple places in the data structure definitions that
hardcoded assumptions about the order of the objects (to <1):

* The length of the OBJECTS vector in a CHIP-SPEC.
* The length of the CXNS vector in a HARDWARE-OBJECT.
* Various constructors and initializers for building complete chip
specifications.
* The computation of the lookup cache.

To solve this problem we introduce more general abstractions that
cover the use case of building a chip-specification, as well as making
on-demand adjustable vectors for those whose lengths depend on the
order of the objects.

To make sure this works we have an example chip spec consisting of
just 3 qubits and a 3 qubit gate on them, that can do CCNOT.
Which usually manifests as an infinite recursive error. Setting up a
proper condition class also allows us to handle this error in cases
where the condition is not fatal.
* Distinguish between the cases of a hardware object being
"dead" (which should strictly be declared in the chip specification),
and the case of an object simply not having a "compiler path". (i.e. a
sequence of compilation methods which sufficiently nativize given the
gate set on the object).
* Don't compute cost bounds for an instruction if doing so yields an
infinite cycle in the compiler, since it may be the case that the
compiler actually can nativize an instruction (e.g., but inserting the
appropriate swaps), but cannot do so during chip specification
warming.
Not because it's impossible, but because the code really doesn't
support it yet.
This is to help ensure building chip specs and the bare minimum
compilation of higher order objects keeps working.
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This looks like it takes the first few steps in a good direction. I left some comments, a couple of them trivial. I don't feel up to speed on quilc anymore, so don't take my 👍 as a clear sign that there's nothing left to think about, but I hope it's some comfort that there's nothing glaring to me.

I'm glad you picked up on how the permutation record stuff is just kinda dangling, and I hope you find a way to make good use of it!

@@ -195,6 +195,13 @@ CNOT 0 2"))
;; test on quality of compilation, and not on correctness.
(is (>= 6 (length 2q-code)))))

(deftest test-native-ccnot-compilation ()
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🎉

;; to help compute a bound on the single
;; operation cost on this chip. This may be a
;; source of non-determinism.
(let* ((instr (apply #'anon-gate "FLEX" (random-special-unitary (expt 2 qubits))
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I know you're just refactoring something gross I wrote, but I want to put on the record that this is a very poor kludge. I might open an issue.

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:protoquil (null registrant))))
;; order >1 hardware objects not yet supported by
;; compressor.
(when (<= (length (chip-specification-objects chip-specification)) 2)
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Prefer (>= 2 (length (chip-specification-objects chip-specification))).

(dotimes (n *compressor-passes*)
(format-noise "COMPILER-HOOK: Compressing, pass ~D/~D." (1+ n) *compressor-passes*)
(setf processed-quil
(compress-instructions processed-quil chip-specification
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Another note for another PR: it's probably the case both that the compressor as-is is going to be gnarly to modify to support higher-order hardware objects and that the variant suggested in #486 would be relatively straightforward. Consider including that ticket in this arc.

@@ -314,6 +379,40 @@ used to specify CHIP-SPEC."
;; return the link
obj))

(defun build-hardware-object (qubits &key type gate-information)
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I see that qubits isn't bounded from above, but the contents of type make it sound specialized to order 2. Do you really want qubits to be unbounded? Or would you prefer something like build-triplet (or something similar)? Does it make sense to introduce a nontrivial type kwarg when that's the "legacy" data path?

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