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GettingStarted.txt
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GettingStarted.txt
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Get the latest herd from github.com/herd/herdtools
update Makefile to point to some appropriate path
make
Checkout latest PipeCheck from github.com/PrincetonUniversity/pipecheck
make
copy herdtools/herd/sc.cat into PipeCheck/
--
To build the web app (only if you want to):
- opam install js_of_ocaml
Go to PipeCheck/ folder
make web (takes a few mins)
mkdir html/tests
mkdir html/models
cp tests/x86tso/sb.test html/tests
cp uarches/tso2.uarch html/models
python -m SimpleHTTPServer
Open browser, go to localhost:<port opened by SimpleHTTPServer>
--
To run:
./pipecheck -i tests/x86tso/sb.test -m <DSL model> -o output.gv
To debug:
-v <verbosity level>
Can also either comment out lines or hard code new constraints or edges.
Can use "-e <extra file>" to append a second model file to the main model, i.e.,
to add new lines to a separate file so the main file doesn't get polluted.
--
Notes on test specification format:
Overall structure:
<initial condition>
<programs>
<outcome>
Components:
<initial/final condition>:
"<pa> = <data>"
(with <pa> and <data> as defined below)
<program>:
"Alternative"
<instructions>
<relationships>
<final conditions>
<instructions>:
Example:
0 0 0 0 (Read Acquire RMW (VA 0 0) (PA 0 0) (Data 0))
Syntax:
<globalID> <coreID> <threadID> <intraInstID> <opcode>
<globalID>: a unique ID for every Instruction
<coreID>: the core on which the thread is running
<threadID>: unique thread ID per core (always 0 except in COATCheck)
<intraInstID>: the intra-instruction ID (always 0 except in COATCheck)
Opcode:
"({Read|Write|Fence} <flags> <va> <pa> <data>)"
Read|Write|Fence: obvious
<flags>: zero or more string identifiers (e.g., "RMW", "Acquire", etc.)
(NB: previously, there was always exactly one flag, and a flag of "normal"
indicated essentially "no flag". Now, there can be arbitrarily many flags,
so "normal" is redundant and ignored. You might still see it around though.)
<va>: "(VA <vtag> <vindex>)"
<vtag>: virtual address tag (integer)
<vindex>: virtual address index (always 0 except in COATCheck)
<pa>: "(PA <ptag> <pindex>)"
<ptag>: physical address tag (integer) (should match vtag except in COATCheck)
<pindex>: physical address index (always 0 except in COATCheck)
<outcome>:
{Permitted|Forbidden|Required|Unobserved}
<relationship>:
"Relationship <name> <globalID0> 0 -> <globalID1> 0"
Example:
"Relationship po 0 0 -> 1 0"
Accessed from within the DSL via, e.g.,:
"HasDependency po i1 i2"
All po, rf, co, fr, etc. emitted by herd can be accessed this way.
Example: SB.test
"""
Alternative
0 0 0 0 (Write (VA 0 0) (PA 0 0) (Data 1))
1 0 0 0 (Read (VA 1 0) (PA 1 0) (Data 0))
2 1 0 0 (Write (VA 1 0) (PA 1 0) (Data 1))
3 1 0 0 (Read (VA 0 0) (PA 0 0) (Data 0))
Relationship po 0 0 -> 1 0
Relationship po 2 0 -> 3 0
Relationship fr 1 0 -> 2 0
Relationship fr 3 0 -> 0 0
Permitted
"""
Example: yatin_mp_st_roach.test
"""
Alternative
0 0 0 0 (Write (VA 0 0) (PA 0 0) (Data 1))
1 0 0 0 (Write Release (VA 1 0) (PA 1 0) (Data 1))
2 1 0 0 (Read (VA 1 0) (PA 1 0) (Data 1))
3 1 0 0 (Read Acquire Release (VA 0 0) (PA 0 0) (Data 0))
Relationship po 0 0 -> 1 0
Relationship po 2 0 -> 3 0
Relationship rf 1 0 -> 2 0
Relationship fr 3 0 -> 0 0
Forbidden
"""
--
Notes on DSL specifications:
Two parts:
StageNames
Axioms
Goal: "search for any uhb graph which satisfies all of the axioms"
Axiom A AND Axiom B AND ... AND Axiom N AND acyclic(graph)
Everything is just a boolean logic value
Combined using AND, OR, NOT
Quantify using "exists" or "forall", over microops or cores
Use lots of parentheses: precedence rules not heavily tested
EdgeExists/EdgesExist/AddEdges/AddEdge: all the same
True if edge is in the graph, false otherwise
not an imperative statement
Node Syntax:
(instruction, stage)
Example:
Axiom "Dummy":
exists microop "i", NodeExists (i, Fetch).
Detail: the full syntax is (instruction, (core, stage)). The default of
(instruction, stage) is sugar for (instruction, (CoreOf instruction, stage)).
To indicate that a stage is shared between cores, only refer to the stage using
one of the appropriate cores. For example: for an LLC which is shared among
all of the cores, have all references to that LLC use core 0:
(instruction, (0, stage)).
Example:
Axiom "Dummy":
exists microop "i", NodeExists (i, (0, ReachL2Cache)).
Edge Syntax
(node, node, "label" [, "color"])
DefineMacro, ExpandMacro.
Can take arguments; not well tested. Existing variables carried through
to expansion.
PipeCheck currently instantiates a new copy of the spec for each separate core.
(This is in preparation for enabling heterogeneity one day). Most per-core
axioms should therefore have a precondition stating that the axiom only applies
to events taking place on that core:
"OnCore c => ..."
For shared locations, can instead assign the task to core 0:
"SameCore 0 c => ..."
--
Complete example
Not really a microarchitecture, but a self-contained example which is small
enough to hold in your head.
Litmus test (triple quotes excluded):
"""
Alternative
0 0 0 0 (Write (VA 0 0) (PA 0 0) (Data 1))
1 0 0 0 (Read (VA 1 0) (PA 1 0) (Data 0))
Relationship po 0 0 -> 1 0
Permitted
"""
"uarch" specification (triple quotes excluded):
"""
StageName 0 "Stage0".
StageName 1 "Stage1".
Axiom "Writes":
forall microops "w",
IsAnyWrite w
=>
EdgeExists ((w, Stage0), (w, Stage1), "path").
Axiom "Reads":
forall microops "r",
IsAnyRead r
=>
EdgeExists ((r, Stage1), (r, Stage0), "path").
Axiom "Stage0Order":
forall microops "i1",
forall microops "i2",
(~SameMicroop i1 i2) % otherwise there would be self-loops
=>
(
EdgeExists ((i1, Stage0), (i2, Stage0), "Stage0Order")
\/
EdgeExists ((i2, Stage0), (i1, Stage0), "Stage0Order")
).
Axiom "Stage1Order":
forall microops "i1",
forall microops "i2",
(~SameMicroop i1 i2) % otherwise there would be self-loops
=>
(
EdgeExists ((i1, Stage1), (i2, Stage1), "Stage1Order")
\/
EdgeExists ((i2, Stage1), (i1, Stage1), "Stage1Order")
).
Axiom "ReverseFIFOOrder":
forall microops "i1",
forall microops "i2",
% edge labels are purely cosmetic; they are ignored entirely
% by the analysis and by the solver
EdgeExists ((i1, Stage0), (i2, Stage0), "doesntmatter")
=>
EdgeExists ((i2, Stage1), (i1, Stage1), "Stage1Order").
"""