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Conference Paper The Impact of System Software of High Performance Computing in Economic Market Forecast of System Software in High Performance Computing: Europe, South Korea, United States
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Authors
Lee Kure-Chel
Issue Date
2015-10
Citation
International Business and Education Conferences 2015, pp.1-10
Publisher
The Clute Institute
Language
English
Type
Conference Paper
Project Code
15MS3300, The Development of Supercomputing System for the Genome Analysis, Choi Wan
Abstract
This paper studies the development of System Software in particular those exploiting High Performance Computing, and their impact (economic and otherwise) on the Korea IT industry and Traditional industry for System Software has been developed for High Performance Computing, as a part of the fulfillment of and Electronic and Telecommunications Research Institute. The view of System Software in Europe, S. Korea, Japan, and U.S show that: IT technology related service are growing rapid and the software usage had previously growing steadily all over Korea, now the growth rate is slower in Korea. The importance of High Performance Computing system software will grow as usage and penetration throws, providing benefits to still greater parts of the IT business and traditional industry.System Software has systematically abstracted away the physical world. System software, however, engage the physical world. Time, concurrency, robustness, continuums, reactivity, and resource management must be remarried to computation.Most of the countries are focuses 3 categories have been selected. They are industrial ship, automotive, aerospace, medical service (in Korea do not identified) and contents service. In Korea, they represent in terms of value added about 6.5% of the total Korean High Performance Computing industry, which includes many other sectors such as Ship products, chemicals and Pharmaceutical. The manufacturing industry is also one of the key contributors to the Korea value-added. Value added of the sectors mentioned above takes into account value added of the OEMs (Original EquipmentManufacturers), but also value added of suppliers relevant to the sector. For instance, in ship, Samsung Heavy industries players like and IBM need to be considered. Prevailing abstractions of computational systems leave out these ""non-functional"" aspects. This theses explains why System software is not just software on big computers, and why it therefore needs fundamentally new views of computation. It suggests component architectures based on a principle called ""actor-oriented design,"" where actors interact according to a model of computation, and describes some models of computation that are suitable for system software. It then suggests that actors can define interfaces that declare dynamic aspects that are essential to system software, such as temporal properties. These interfaces can be structured in a ""system-level type system"" that supports the sort of design-time and run-time type checking that conventional high performance computing and system software benefits from.
KSP Keywords
Component architecture, Computational systems, Design time, Development of system, Growth rate, High Performance Computing, IT business, IT industry, IT technology, Market forecast, Medical Services