iNET Based Automatic Hardware Selection

Kupferschmidt, Benjamin

10 1900

ITC/USA 2008 Conference Proceedings / The Forty-Fourth Annual International Telemetering Conference and Technical Exhibition / October 27-30, 2008 / Town and Country Resort & Convention Center, San Diego, California / One of the principle goals of the Integrated Network Enhanced Telemetry (iNET) program is to help flight-test engineers configure their data acquisition systems more rapidly. This will allow them to focus more of their energies on the collection of data rather than on the design and configuration of their data acquisition hardware. Currently most flight-test engineers spend the majority of their time configuring their data acquisition systems to acquire data for test flights. Typically, the flight test engineers must manually transform the requirements that are given to them into actual measurements from the data acquisition system. This process forces the flight test engineers to become experts in the implementation details of their data acquisition systems. This paper will discuss a possible design for an automatic hardware selection system. This system would allow flight test engineers to step away from the implementation details of their data acquisition system and focus instead on the parameter data that the system is acquiring. The key design goal for this system is to create a mechanism that can automatically transform the requirements for a flight test program into a list of hardware that can accomplish the desired task.

Automatic Hardware Selection

INET

Data Acquisition Systems

XML

Automatic Generation of Hardware for Custom Instructions

Necsulescu, Philip I

12 August 2011

The Software/Hardware Implementation and Research Architecture (SHIRA) is a C to hardware toolchain developed by the Computer Architecture Research Group (CARG) of the University of Ottawa. The framework and algorithms to generate the hardware from an Intermediate Representation (IR) of the C code is needed. This dissertation presents the conceiving, design, and development of a module that generates the hardware for custom instructions identified by specialized SHIRA components without the need for any user interaction. The module is programmed in Java and takes a Data Flow Graph (DFG) as an IR for input. It then generates VHDL code that targets the Altera FPGAs. It is possible to use separate components for each operation or to set a maximum number for each component which leads to component reuse and reduces chip area use. The performance improvement of the generated code is compared to using only the processor’s standard instruction set.

FPGA

Instruction Set Extension

ISE

Custom Instruction

Automatic Hardware Generation

Assisted Hardware Generation

VHDL

Embedded Systems

Custom Hardware

Automatic Generation of Hardware for Custom Instructions

Necsulescu, Philip I

12 August 2011

The Software/Hardware Implementation and Research Architecture (SHIRA) is a C to hardware toolchain developed by the Computer Architecture Research Group (CARG) of the University of Ottawa. The framework and algorithms to generate the hardware from an Intermediate Representation (IR) of the C code is needed. This dissertation presents the conceiving, design, and development of a module that generates the hardware for custom instructions identified by specialized SHIRA components without the need for any user interaction. The module is programmed in Java and takes a Data Flow Graph (DFG) as an IR for input. It then generates VHDL code that targets the Altera FPGAs. It is possible to use separate components for each operation or to set a maximum number for each component which leads to component reuse and reduces chip area use. The performance improvement of the generated code is compared to using only the processor’s standard instruction set.

FPGA

Instruction Set Extension

ISE

Custom Instruction

Automatic Hardware Generation

Assisted Hardware Generation

VHDL

Embedded Systems

Custom Hardware

Automatic Generation of Hardware for Custom Instructions

Necsulescu, Philip I

12 August 2011

The Software/Hardware Implementation and Research Architecture (SHIRA) is a C to hardware toolchain developed by the Computer Architecture Research Group (CARG) of the University of Ottawa. The framework and algorithms to generate the hardware from an Intermediate Representation (IR) of the C code is needed. This dissertation presents the conceiving, design, and development of a module that generates the hardware for custom instructions identified by specialized SHIRA components without the need for any user interaction. The module is programmed in Java and takes a Data Flow Graph (DFG) as an IR for input. It then generates VHDL code that targets the Altera FPGAs. It is possible to use separate components for each operation or to set a maximum number for each component which leads to component reuse and reduces chip area use. The performance improvement of the generated code is compared to using only the processor’s standard instruction set.

FPGA

Instruction Set Extension

ISE

Custom Instruction

Automatic Hardware Generation

Assisted Hardware Generation

VHDL

Embedded Systems

Custom Hardware

Automatic Generation of Hardware for Custom Instructions

Necsulescu, Philip I

January 2011

The Software/Hardware Implementation and Research Architecture (SHIRA) is a C to hardware toolchain developed by the Computer Architecture Research Group (CARG) of the University of Ottawa. The framework and algorithms to generate the hardware from an Intermediate Representation (IR) of the C code is needed. This dissertation presents the conceiving, design, and development of a module that generates the hardware for custom instructions identified by specialized SHIRA components without the need for any user interaction. The module is programmed in Java and takes a Data Flow Graph (DFG) as an IR for input. It then generates VHDL code that targets the Altera FPGAs. It is possible to use separate components for each operation or to set a maximum number for each component which leads to component reuse and reduces chip area use. The performance improvement of the generated code is compared to using only the processor’s standard instruction set.

FPGA

Instruction Set Extension

ISE

Custom Instruction

Automatic Hardware Generation

Assisted Hardware Generation

VHDL

Embedded Systems

Custom Hardware

Generation of Application Specific Hardware Extensions for Hybrid Architectures: The Development of PIRANHA - A GCC Plugin for High-Level-Synthesis

Hempel, Gerald

11 November 2019

Architectures combining a field programmable gate array (FPGA) and a general-purpose processor on a single chip became increasingly popular in recent years. On the one hand, such hybrid architectures facilitate the use of application specific hardware accelerators that improve the performance of the software on the host processor. On the other hand, it obliges system designers to handle the whole process of hardware/software co-design. The complexity of this process is still one of the main reasons, that hinders the widespread use of hybrid architectures. Thus, an automated process that aids programmers with the hardware/software partitioning and the generation of application specific accelerators is an important issue. The method presented in this thesis neither requires restrictions of the used high-level-language nor special source code annotations. Usually, this is an entry barrier for programmers without deeper understanding of the underlying hardware platform. This thesis introduces a seamless programming flow that allows generating hardware accelerators for unrestricted, legacy C code. The implementation consists of a GCC plugin that automatically identifies application hot-spots and generates hardware accelerators accordingly. Apart from the accelerator implementation in a hardware description language, the compiler plugin provides the generation of a host processor interfaces and, if necessary, a prototypical integration with the host operating system. An evaluation with typical embedded applications shows general benefits of the approach, but also reveals limiting factors that hamper possible performance improvements.

info:eu-repo/classification/ddc/004

ddc:004