The spelling of "Advanced RISC Computing Specification" is determined by its pronunciation, which can be broken down using the International Phonetic Alphabet (IPA). The first word, "advanced," is pronounced /ədˈvænst/, while the acronym "RISC" is pronounced /rɪsk/. The final word, "computing," is pronounced /kəmˈpjuːtɪŋ/, and "specification" is pronounced /ˌspɛsɪfɪˈkeɪʃən/. Putting it all together, the correct spelling of this advanced computer technology term is "ədˈvænst risk kəmˈpjuːtɪŋ ˌspɛsɪfɪˈkeɪʃən."
Advanced RISC Computing Specification (also known as ARC) is a set of design guidelines that define a hardware and software interface for computer systems and server platforms. It is a standardized specification developed by the Server System Infrastructure (SSI) Forum, an industry group that promotes standards for server architectures.
The Advanced RISC Computing Specification is primarily focused on the development of reduced instruction set computer (RISC) processors for servers. This specification provides a framework for system integration, hardware compatibility, and software portability in server designs. It ensures that server components are interoperable and can be easily replaced or upgraded.
The main objectives of the Advanced RISC Computing Specification include modular system design, scalability, and support for multiple operating systems. It defines standards for system boards, power supplies, chassis, and other hardware components, as well as deployment and management features.
The specification outlines guidelines for hardware and firmware interfaces, including the motherboard layout, bus architectures, and input/output connectors. It also provides guidelines for software, emphasizing compatibility with various operating systems and ensuring efficient resource utilization.
By adhering to the Advanced RISC Computing Specification, manufacturers can develop server systems that are compatible with other ARC-compliant components and software. This helps to promote industry-wide standards, streamline production processes, and enhance the overall reliability and performance of server platforms.