Gabriel Kerneis scite author profile

Gabriel Kerneis

4Publications

48Citation Statements Received

89Citation Statements Given

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University of Cambridge, Délégation Paris 7

Publications

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An integrated concurrency and core-ISA architectural envelope definition, and test oracle, for IBM POWER multiprocessors

Gray

Kerneis

Mulligan

et al. 2015

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Weakly consistent multiprocessors such as ARM and IBM POWER have been with us for decades, but their subtle programmer-visible concurrency behaviour remains challenging, both to implement and to use; the traditional architecture documentation, with its mix of prose and pseudocode, leaves much unclear.In this paper we show how a precise architectural envelope model for such architectures can be defined, taking IBM POWER as our example. Our model specifies, for an arbitrary test program, the set of all its allowable executions, not just those of some particular implementation. The model integrates an operational concurrency model with an ISA model for the fixedpoint non-vector user-mode instruction set (largely automatically derived from the vendor pseudocode, and expressed in a new ISA description language). The key question is the interface between these two: allowing all the required concurrency behaviour, without overcommitting to some particular microarchitectural implementation, requires a novel abstract structure.Our model is expressed in a mathematically rigorous language that can be automatically translated to an executable test-oracle tool; this lets one either interactively explore or exhaustively compute the set of all allowed behaviours of intricate test cases, to provide a reference for hardware and software development.

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Continuation-Passing C, compiling threads to events through continuations

Kerneis

Chroboczek

2011

Higher-Order Symb Comput

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In this paper, we introduce Continuation Passing C (CPC), a programming language for concurrent systems in which native and cooperative threads are unified and presented to the programmer as a single abstraction. The CPC compiler uses a compilation technique, based on the CPS transform, that yields efficient code and an extremely lightweight representation for contexts. We provide a proof of the correctness of our compilation scheme. We show in particular that lambda-lifting, a common compilation technique for functional languages, is also correct in an imperative language like C, under some conditions enforced by the CPC compiler. The current CPC compiler is mature enough to write substantial programs such as Hekate, a highly concurrent BitTorrent seeder. Our benchmark results show that CPC is as efficient, while using significantly less space, as the most efficient thread libraries available.

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Erratum to: Continuation-Passing C, compiling threads to events through continuations

Kerneis

Chroboczek

2011

Higher-Order Symb Comput

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Qemu/CPC

Kerneis

Shepherd

Hajnoczi³

2014

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Coroutines and events are two common abstractions for writing concurrent programs. Because coroutines are often more convenient, but events more portable and efficient, it is natural to want to translate the former into the latter. CPC is such a source-tosource translator for C programs, based on a partial conversion into continuation-passing style (CPS conversion) of functions annotated as cooperative.In this article, we study the application of the CPC translator to QEMU, an open-source machine emulator which also uses annotated coroutine functions for concurrency. We first propose a new type of annotations to identify functions which never cooperate, and we introduce CoroCheck, a tool for the static analysis and inference of cooperation annotations. Then, we improve the CPC translator, defining CPS conversion as a calling convention for the C language, with support for indirect calls to CPS-converted function through function pointers. Finally, we apply CoroCheck and CPC to QEMU (750 000 lines of C code), fixing hundreds of missing annotations and comparing performance of the translated code with existing implementations of coroutines in QEMU.Our work shows the importance of static annotation checking to prevent actual concurrency bugs, and demonstrates that CPS conversion is a flexible, portable, and efficient compilation technique, even for very large programs written in an imperative language.

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Gabriel Kerneis

An integrated concurrency and core-ISA architectural envelope definition, and test oracle, for IBM POWER multiprocessors

Continuation-Passing C, compiling threads to events through continuations

Erratum to: Continuation-Passing C, compiling threads to events through continuations

Qemu/CPC

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