Macro-Based Hardware Compilation of Java(tm) Bytecodes into a Dynamic Reconfigurable Computing System
نویسندگان
چکیده
This paper presents a new approach to synthesize to reconfigurable hardware (HW) user-specified regions of a program, under the assumption of “virtual HW” support. The automation of this approach is supported by a compiler front-end and by an HW compiler under development. The front-end starts from the Java bytecodes and, therefore, supports any language that can be compiled to the JVM (Java Virtual Machine) model. It extracts from the bytecodes all the dependencies inside and between basic blocks. This information is stored in representation graphs more suitable to efficiently exploit the existent parallelism in the program than those typically used in high-level synthesis. From the intermediate representations the HW compiler exploits the temporal partitions at the behavior level, resolves memory access conflicts, and generates the VHDL descriptions at register-transfer level that will be mapped into the reconfigurable HW devices.
منابع مشابه
Macro-Based Hardware Compilation of Java Bytecodes into a Dynamic Reconfigurable Computing System
This paper presents a new approach to synthesize to reconfigurable hardware (HW) user-specified regions of a program, under the assumption of “virtual HW” support. The automation of this approach is supported by a compiler front-end and by an HW compiler under development. The front-end starts from the Java bytecodes and, therefore, supports any language that can be compiled to the JVM (Java Vi...
متن کاملFast Hardware Compilation of Behaviors into an FPGA-Based Dynamic Reconfigurable Computing System
This report presents new techniques for architecture and performance driven compilation of software programs into reconfigware (reconfigurable hardware). These new techniques effectively improve on the complex resource sharing approaches typical of High-Level Synthesis algorithms, which are efficient for layout flexible ASICs but are clearly not adequate for reconfigurable devices with pre-defi...
متن کاملHardware compilation for high performance Java processors
High performance on Java applications running on server and desktop machines requires fast execution of Java bytecodes. Such performance can be achieved by Just-In-Time (JIT) compilers, which translate the stack-based bytecodes into register-based machine code on demand. But one crucial problem in Java JIT compilation is the compilation time, which increases the total execution time of an appli...
متن کاملA Hardware/Software Co-design and Co-verification on a Novel Embedded Object-Oriented Processor
In the past, programming language are procedural, the design concept is based on the module and scope which are difficult to manage, but nowadays, the programming trend is Object-Oriented Programming (OOP), where objects are the key elements to build up application and the communications between different objects are through method invocation. A novel objectoriented processor offers an opportun...
متن کاملDesign and Implementation of Pep, A Java Just-in-Time Translator
Java, a new object-oriented member of the C family of languages, has become popular in part because it emphasizes portability. Portability is achieved by compiling programs to machine-independent bytecodes that can be interpreted on a Java virtual machine. Unfortunately, interpreted performance does not match native code performance. A just-in-time compiler can regain performance without sacrif...
متن کامل