Amalee Wilson scite author profile

Amalee Wilson

5Publications

37Citation Statements Received

4Citation Statements Given

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Stanford University, Los Alamos National Laboratory

Publications

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A sparse iteration space transformation framework for sparse tensor algebra

Senanayake

Hong

Wang

et al. 2020

Proc. ACM Program. Lang.

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We address the problem of optimizing sparse tensor algebra in a compiler and show how to define standard loop transformations---split, collapse, and reorder---on sparse iteration spaces. The key idea is to track the transformation functions that map the original iteration space to derived iteration spaces. These functions are needed by the code generator to emit code that maps coordinates between iteration spaces at runtime, since the coordinates in the sparse data structures remain in the original iteration space. We further demonstrate that derived iteration spaces can tile both the universe of coordinates and the subset of nonzero coordinates: the former is analogous to tiling dense iteration spaces, while the latter tiles sparse iteration spaces into statically load-balanced blocks of nonzeros. Tiling the space of nonzeros lets the generated code efficiently exploit heterogeneous compute resources such as threads, vector units, and GPUs. We implement these concepts by extending the sparse iteration theory implementation in the TACO system. The associated scheduling API can be used by performance engineers or it can be the target of an automatic scheduling system. We outline one heuristic autoscheduling system, but other systems are possible. Using the scheduling API, we show how to optimize mixed sparse-dense tensor algebra expressions on CPUs and GPUs. Our results show that the sparse transformations are sufficient to generate code with competitive performance to hand-optimized implementations from the literature, while generalizing to all of the tensor algebra.

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Smt-Switch: A Solver-Agnostic C++ API for SMT Solving

Mann

Wilson

Zohar

et al. 2021

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Optimized Transactional Data Structure Approach to Concurrency Control for In-Memory Databases

Peterson

Wilson

Pirkelbauer

et al. 2020

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Travel grantee reflects on research and mentoring at SC17

Wilson¹

2018

ACM SIGHPC Connect

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Smt-Switch: a solver-agnostic C++ API for SMT Solving

Mann¹,

Wilson²,

Tinelli³

et al. 2020

Preprint

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This extended abstract describes work in progress on Smt-Switch, an open-source, solver-agnostic API for SMT solving. Smt-Switch provides an abstract interface, which can be implemented by different SMT solvers. Smt-Switch provides simple, uniform, and high-performance access to SMT solving for applications in areas such as automated reasoning, planning, and formal verification. The interface allows the user to create, traverse, and manipulate terms, as well as to dynamically dispatch queries to different underlying SMT solvers.

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Amalee Wilson

A sparse iteration space transformation framework for sparse tensor algebra

Smt-Switch: A Solver-Agnostic C++ API for SMT Solving

Optimized Transactional Data Structure Approach to Concurrency Control for In-Memory Databases

Travel grantee reflects on research and mentoring at SC17

Smt-Switch: a solver-agnostic C++ API for SMT Solving

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