1 / 15

Jaguar: A Next-Generation Low-Power x86-64 Core

Jaguar: A Next-Generation Low-Power x86-64 Core. University of Tehran School of Electrical and Computer Engineering . Provided By: Ali Teymouri Based on article “ Jaguar: A Next-Generation Low-Power x86-64 Core ” Coarse: Custom Implementation of DSP Systems . Outline. Introduction

woody
Télécharger la présentation

Jaguar: A Next-Generation Low-Power x86-64 Core

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Jaguar: A Next-Generation Low-Power x86-64 Core University of Tehran School of Electrical and Computer Engineering Provided By: Ali Teymouri Based on article “Jaguar: A Next-Generation Low-Power x86-64 Core” Coarse: Custom Implementation of DSP Systems

  2. Outline • Introduction • Motivation • Comparing two core • Architecture • Improvements • Conclusion

  3. List of AMD microprocessors [5] • 1 AMD-originated architectures • 1.1 Am2900 series (1975) • 1.2 29000 (29K) (1987–95) • 2 non x86 architecture processors • 2.1 2nd source (1974) • 2.2 2nd source (1982) • 3 x86 architecture processors • 3.1 2nd source (1979–91) • 3.2 Am X86 series (1991–95) • 3.3 K5 architecture (1995) • 3.4 K6 architecture (1997–2001) • 3.5 K7 architecture (1999–2005) • 3.6 K8 core architecture • 3.7 K10 core architecture • 3.8 Bulldozer module architecture • 3.9 Bobcat core architecture

  4. Bobcat • Core power gating and a micro architecture optimized for low power • designed for mobile, tablet • to address the specific customer demands • 4.5 – 18 watt power range Bobcatlow-power core [2]

  5. Jaguar core Jaguar Bobcat low-power core [4] Jaguar core [4]

  6. Jaguar CU • First AMD 28nm quad-core x86-64 • Build unit to deploy into a wide variety of SoCs for different applications • Span wide array of applications from sub 5W to 25W Jaguar CU[4]

  7. Motivation Jaguar • Build SoC to fit range of markets – Tablet, hybrids – Value notebook – Ultrathin notebook – Value desktop [1]

  8. Comparing two core [1]

  9. Architecture • Improved IPC, frequency and power more than BT • Estimated typical IPC improvement over “Bobcat”: >15%* • The load-store unit is redesigned • 4x32B Instruction Cache loop buffer for power • Improved Instruction Cache prefetcher for IPC • Added L2 prefetcher • Added hardware integer divider • Improved C6 and CC6 entry/exit latencies • Clock gate >92% flops in typical applications

  10. Architecture • The JG core is optimized at two main frequency targets, low and high voltage • giving the core a dynamic range for application in several markets • 3 Vt solution: • HVT/RVT/LVT • Longer lengths for each Vt • BT had 10 metal stack • JG uses 11 metal stack [1]

  11. High Speed Flop • custom built flip-flops [4] to maximize performance over traditional master-slave flops • larger flops consume more dynamic power • To minimize the power and area impact they are inserted only in critical paths custom flops account for < 8% [1]

  12. CU Level Clock Distribution • Matched clock delay to all endpoints to minimize latency • extensive clock gating • Each unit’s clock independently gated to reduce dynamic power [1]

  13. Power Gating • Integrated Power Gating • Headers have 4 independent enables to Longer lengths for each Vt • Diagram showing highlighted headers within the JG core • Area overhead is ~3% [1] [1]

  14. Conclusion • “Jaguar” is first AMD 28nm bulk CPU • Quad core with shared L2 • support a wide range of applications • Is low-power and Focus on high density and smaller chip area • Improved IPC, frequency and power more than BT • Worthy successor to “Bobcat” x86-64 core

  15. References • [1]. T. Singh, J. Bell, S. Southard. , “Jaguar: A Next-Generation Low-Power x86-64 Core,” in 2013 IEEE Int. Solid-State Circuits Conf. (ISSCC) Dig. Tech . Papers , Feb. 17–21, 2013, section 3 • [2]. D. Foley, P. Bansal, D. Cherepacha, R. Wasmuth, A. Gunasekar, S. Gutta, A. Naini, ‘‘A Low-Power Integrated x86–64 and Graphics Processor for Mobile Computing Devices, ’’ IEEE Journal of Solid-State Circuits , VOL. 47, NO. 1, January 2012. • [3]. www.hitechreview.com • [4]. www. semiaccurate.com • [5]. www.wikipedia.org

More Related