A Heterogeneous Architecture for Evaluating Real-Time One-Dimensional Computational Fluid Dynamics on FPGAs

Liu, Isaac; Lee, Edward A.; Viele, Matthew; Wang, Guoqiang; Andrade, Hugo A.

doi:10.1109/fccm.2012.31

Cited by 7 publications

(5 citation statements)

References 11 publications

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“…If semaphores or mutexes are used in such communication, then obviously the timing of one thread will affect the timing of the other. But more interestingly, because of our precise control over timing, deterministic communication can occur without semaphores or locks, as done in [27]. This leads to extremely low overhead multithreading.…”

Section: Results and Analysismentioning

confidence: 99%

“…Such assumptions are not unrealistic: Liu et al [27] present a real-time engine fuel rail simulator that contains this setup and directly benefits from the improved throughput previously shown. The simulator implements a one-dimensional computational fluid dynamics (1D-CFD) solver that improves the precision of fuel injection, leading to more efficient engine designs.…”

Section: Applicationsmentioning

confidence: 99%

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A PRET microarchitecture implementation with repeatable timing and competitive performance

Liu

Reineke

Broman

et al. 2012

2012 IEEE 30th International Conference on Computer Design (ICCD)

Self Cite

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Abstract-We contend that repeatability of execution times is crucial to the validity of testing of real-time systems. However, computer architecture designs fail to deliver repeatable timing, a consequence of aggressive techniques that improve averagecase performance. This paper introduces the Precision-Timed ARM (PTARM), a precision-timed (PRET) microarchitecture implementation that exhibits repeatable execution times without sacrificing performance. The PTARM employs a repeatable thread-interleaved pipeline with an exposed memory hierarchy, including a repeatable DRAM controller. Our benchmarks show an improved throughput compared to a single-threaded in-order five-stage pipeline, given sufficient parallelism in the software.

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Section: Results and Analysismentioning

confidence: 99%

Section: Applicationsmentioning

confidence: 99%

A PRET microarchitecture implementation with repeatable timing and competitive performance

Liu

Reineke

Broman

et al. 2012

2012 IEEE 30th International Conference on Computer Design (ICCD)

Self Cite

View full text Add to dashboard Cite

show abstract

“…This is performed by injecting a radio‐opaque contrast agent into the aorta and imaging using fluoroscopy. In order to simulate such angiography operations in real time, a fast 1D computational fluid dynamics method is implemented in the system.…”

Section: Simulation Methodsmentioning

confidence: 99%

An interactive computer‐based simulation system for endovascular aneurysm repair surgeries

Wang

Serracino‐Inglott

et al. 2016

Computer Animation & Virtual

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This paper presents an interactive simulation system for surgical procedures of endovascular aneurysm repair. It extracts anatomical structure of clinic interest from patient‐specific X‐ray computed tomography or magnetic resonance imaging data by image segmentation techniques, and then reconstructs surface triangular meshes of these anatomical structures from the volumetric data. The core of the system is an interactive computer‐based simulation module. It consists of a physical modeling unit, a collision detection unit, a visualization unit, and a control unit. The integration of these units together makes it possible for users to interact with the system in real time, performing virtual catheterization, angiography, and stent graft deployment under a user‐specified rendering mode. The prototype system can be used as a cost‐efficient tool for surgical planning with patient‐specific anatomical geometry and for practice of surgical procedures before actual operation. Copyright © 2016 John Wiley & Sons, Ltd.

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“…The U250 utilized a combination of external memory and internal memory. Four DDR4 memory block, in total of 64GB, are connect to the four Super Logic Region (SLR), where each region contains an 1341K LUTs, 2749k registers, and 2K block of RAM, each of size 36Kb [11]. Then the SLRs are connection to the static region to deal with the I/O port connection.…”

Section: Cfd Acceleration With Fpgamentioning

confidence: 99%

Specialized fluid estimation implementation on the FPGA

Yang

2023

ACE

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This paper studies the possibility of exploring Field Programmable Gate Array (FPGA) in the acceleration of Computational Fluid Dynamics (CFD). CFD is an industrial analysis tool to estimate the flow of matter. In the previous experience, CFD are most implemented on the conventional CPU, and may accelerate with GPUs in a high-performance computing center. This paper studies the architecture of the FPGA and compared the FPGA to CPU and the application and algorithm of CFD. We studied the previous works from different research and found that CFD occupies a huge advantage on the efficiency of the overall system. FPGA utilize less hardware resources, and usually presents a less computing time and higher throughput of data. So, FPGA is a viable and cost-effective solution for future alternative of the CFD computation with the same cost of constructing a high-performance computing center.

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A Heterogeneous Architecture for Evaluating Real-Time One-Dimensional Computational Fluid Dynamics on FPGAs

Cited by 7 publications

References 11 publications

A PRET microarchitecture implementation with repeatable timing and competitive performance

A PRET microarchitecture implementation with repeatable timing and competitive performance

An interactive computer‐based simulation system for endovascular aneurysm repair surgeries

Specialized fluid estimation implementation on the FPGA

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