• Title/Summary/Keyword: SoC 플랫폼

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Design and Verification of IEEE 802.11a Baseband Processor (IEEE 802.11a 기저대역 프로세서의 설계 및 검증)

  • Kim, Sang-In;Kim, Su-Young;Seo, Jung-Hyun;Yun, Tae-Il;Lee, Je-Hoon;Cho, Kyoung-Rok
    • Journal of the Institute of Electronics Engineers of Korea TC
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    • v.44 no.6 s.360
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    • pp.9-17
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    • 2007
  • This paper shows an implementation of the baseband processor compliant with the IEEE 802.11a standard. Some innovative techniques are proposed to fulfill the mandatory requirements of the standard. For verification and analysis of this design, we use a Platform-based SoC (system on chip) environment. The entire system consists of test-board for the baseband processor chip and the SoC platform for implementing MAC (medium access control).

Android-Based Open Platform Intelligent Vehicle Services Middleware Application (안드로이드 기반의 지능형자동차 미들웨어 오픈플랫폼 서비스 응용)

  • Choi, Byung-Kwan
    • Journal of the Korea Society of Computer and Information
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    • v.18 no.8
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    • pp.33-41
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    • 2013
  • Intelligent automobile technology and IT convergence, the development of new imaging technology media applications based on open source Android installed on tracked, wheeled smart phone application technology and the development of intelligent vehicles as a new paradigm a lot of research and development being made. Android-based intelligent automotive applications, technology, and evolved into the center of a set of various multimedia technologies move beyond the limits of the means of each of multimedia platforms, services and applications that have been developed in such a distributed environment, has been developed according to a variety of services through technology mobile terminal device technology is an absolute requirement. In this paper, SVC Codec, real-time video and graphics processing and SoC design intelligent vehicles middleware applications with monolithic system specification through Android-based design of intelligent vehicles dedicated middleware research experiments on open platforms, and provides various terminal services functions SoC based on a newly designed and standardized interface analysis techniques in this study were verified through experiments.

Low-Complexity Deeply Embedded CPU and SoC Implementation (낮은 복잡도의 Deeply Embedded 중앙처리장치 및 시스템온칩 구현)

  • Park, Chester Sungchung;Park, Sungkyung
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.17 no.3
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    • pp.699-707
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    • 2016
  • This paper proposes a low-complexity central processing unit (CPU) that is suitable for deeply embedded systems, including Internet of things (IoT) applications. The core features a 16-bit instruction set architecture (ISA) that leads to high code density, as well as a multicycle architecture with a counter-based control unit and adder sharing that lead to a small hardware area. A co-processor, instruction cache, AMBA bus, internal SRAM, external memory, on-chip debugger (OCD), and peripheral I/Os are placed around the core to make a system-on-a-chip (SoC) platform. This platform is based on a modified Harvard architecture to facilitate memory access by reducing the number of access clock cycles. The SoC platform and CPU were simulated and verified at the C and the assembly levels, and FPGA prototyping with integrated logic analysis was carried out. The CPU was synthesized at the ASIC front-end gate netlist level using a $0.18{\mu}m$ digital CMOS technology with 1.8V supply, resulting in a gate count of merely 7700 at a 50MHz clock speed. The SoC platform was embedded in an FPGA on a miniature board and applied to deeply embedded IoT applications.

Implementation of a 3D Graphics Hardwired T&L Accelerator based on a SoC Platform for a Mobile System (SoC 플랫폼 기반 모바일용 3차원 그래픽 Hardwired T&L Accelerator 구현)

  • Lee, Kwang-Yeob;Koo, Yong-Seo
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.44 no.9
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    • pp.59-70
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    • 2007
  • In this paper, we proposed an effective T&L(Transform & Lighting) Processor architecture for a real time 3D graphics acceleration SoC(System on a Chip) in a mobile system. We designed Floating point arithmetic IPs for a T&L processor. And we verified IPs using a SoC Platform. Designed T&L Processor consists of 24 bit floating point data format and 16 bit fixed point data format, and supports the pipeline keeping the balance between Transform process and Lighting process using a parallel computation of 3D graphics. The delay of pipeline processing only Transform operation is almost same as the delay processing both Transform operation and Lighting operation. Designed T&L Processor is implemented and verified using a SoC Platform. The T&L Processor operates at 80MHz frequency in Xilinx-Virtex4 FPGA. The processing speed is measured at the rate of 20M Vertexes/sec.

Genetic Algorithm Calibration Method and PnP Platform for Multimodal Sensor Systems (멀티모달 센서 시스템용 유전자 알고리즘 보정기 및 PnP 플랫폼)

  • Lee, Jea Hack;Kim, Byung-Soo;Park, Hyun-Moon;Kim, Dong-Sun;Kwon, Jin-San
    • The Journal of the Korea institute of electronic communication sciences
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    • v.14 no.1
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    • pp.69-80
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    • 2019
  • This paper proposes a multimodal sensor platform which supports plug and play (PnP) technology. PnP technology automatically recognizes a connected sensor module and an application program easily controls a sensor. To verify a multimodal platform for PnP technology, we build up a firmware and have the experiment on a sensor system. When a sensor module is connected to the platform, a firmware recognizes the sensor module and reads sensor data. As a result, it provides PnP technology to simply plug sensors without any software configuration. Measured sensor raw data suffer from various distortions such as gain, offset, and non-linearity errors. Therefore, we introduce a polynomial calculation to compensate for sensor distortions. To find the optimal coefficients for sensor calibration, we apply a genetic algorithm which reduces the calibration time. It achieves reasonable performance using only a few data points with reducing 97% error in the worst case. The platform supports various protocols for multimodal sensors, i.e., UART, I2C, I2S, SPI, and GPIO.

An Eclipse Plug-In for Platform Specific Model of Embedded Software in Multiprocessor Environment (멀티 프로세서용 임베디드 소프트웨어의 PSM 모델링을 위한 이클립스 플러그인)

  • Oh, Gi-Young;Hong, Jang-Eui
    • Proceedings of the Korean Information Science Society Conference
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    • 2006.10c
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    • pp.402-405
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    • 2006
  • 멀티프로세서 환경에서 동작하는 임베디드 시스템을 개발하기 위해서는 소프트웨어 모델분만 아니라 하드웨어 플랫폼에 대한 모델이 필요하다. 이는 개발하고자 하는 소프트웨어가 하드웨어 플랫폼에 어떻게 배치되어 실행할 것인가에 대한 고려가 요구되기 때문이다. 특히 MPSoC(Multiprocessor SoC)에서는 소프트웨어를 배치할 하드웨어 플랫폼에 대한 정보가 필요하기 때문에 설계 과정에서 이들에 대한 모델링이 요구된다. 따라서 본 연구에서는 하드웨어 플랫폼 아키덱처를 정의할 수 있는 이클립스 기반의 플러그인을 개발하고, 이를 이용한 PSM 모델링 방안을 제시한다.

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