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NVidia's TEGRA line of SoC’s for mobile devices for b
Guided by - Sukul.YProf R.N.KULKARNI 8th sem ISE 3BR09IS052
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System on Chip(SoC):
A system on a chip or system on chip (SoC or SOC) is an integrated circuit (IC) that integrates all components of a computer or other electronic system into a single chip.
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A typical SoC consists of:
•A microcontroller, microprocessor or DSP core(s).
•Memory blocks•Peripherals•External interfaces including industry
standards such as USB, FireWire, Ethernet
•Voltage regulators and power management circuits.
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Example of a SoC’s structure
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The so called “SMART” race
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Mobile devices:
•Smartphones•Tablets•Portable media players•Personal digital assistants(PDA’s)•Blu-ray players•DVD players•Hand-held Gaming consoles
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•Users today expect their mobile device to not only deliver long battery life but also provide the same full high definition web experience that they get from a PC.
•In addition to web browsing capabilities, users expect their mobile devices to handle a variety of use cases such as gaming, audio playback, navigation and photo/video capture.
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Common mobile device architecture:
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Power-Performance Paradox:
•Most mobile device architectures are designed around a general purpose CPU.
•The CPU not only underperforms but also consumes excessive power for today’s mobile use cases.
•Relying on a power hungry CPU either compromises battery life to offer good performance or delivers substandard experiences.
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The mobile challenge:
The two main challenges are:
•High performance•Low power consumption
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The Solution:
•NVidia's TEGRA Multi-Processor Architecture
•Use of a heterogeneous multi-processor architecture .
•A heterogeneous multi-processor by definition consists of several processors that are different in structure and function with each processor optimized for a specific purpose
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8 Purpose optimized processors:•Dual-Core ARM Cortex A9 CPU(2)•ARM7 Processor•Ultra Low-Power Graphics Processor
(GPU)•HD Video Decode Processor•HD Video Encode Processor•Audio Processor•Image Signal Processor (ISP)
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NVIDIA Tegra purpose-optimized processors
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The Tegra line-up:
•Tegra APX series•Tegra 6xx series•Tegra 2 series•Tegra 3 series•Tegra 4 series
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Tegra APX SERIES
•Processor: ARM11 600 MHz MPCore (originally GeForce ULV)
•Memory: NOR or NAND flash, Mobile DDR•Graphics: Image processor (FWVGA
854×480 pixels)•720p H.264 Baseline Profile encode or
decode
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Tegra 6xx series
•Targeted for GPS segment and automotive•Processor: ARM11 700 MHz MPCore•HD camera 720p•Display supports 1080p at 24 frame/s,
HDMI v1.3, WSXGA+ LCD and CRT, and NTSC/PAL TV output
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Tegra 2 series:
Model number
CPU instructio
n set CPU GPU
Tegra 250 AP20H
(Ventana)
ARMv7 1 GHz Dual-core ARM Cortex-A9
ULP GeForce 300 MHz
Tegra 250 T20 (Harmony)
ARMv7 1 GHz Dual-core ARM Cortex-A9
ULP GeForce 300 MHz
Tegra 250 3D AP25
ARMv7 1 GHz Dual-core ARM Cortex-A9
ULP GeForce 400 MHz
Tegra 250 3D T25
ARMv7 1 GHz Dual-core ARM Cortex-A9
ULP GeForce 400 MHz
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Tegra 3 series:
Model number
CPU instructio
n setCPU GPU
Tegra 3 T30L ARMv7 1.2 GHz Quad-core
ARM Cortex-A9
416 MHz ULP GeForce
Tegra 3 T30 ARMv7 1.4 GHz Quad-core
ARM Cortex-A9
520 MHz ULP GeForce
Tegra 3 T33 ARMv7 1.6 GHz Quad-core
ARM Cortex-A9
520 MHz ULP GeForce
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Tegra 4 series
Model number
CPU instructio
n setCPU GPU
Tegra 4 ARMv7 1.8 GHz up to 1.9 GHz quad-
core ARM Cortex-A15
72 cores
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Use case examples:
•Listening to Music
•Watching Videos
•Playing Games
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Use caseProcessors turned on
•Listening to Music
•Watching Videos
•Playing Games
•dedicated audio processor and the low-power ARM7 processor
•video decode processor
•CPUs and the highly optimized NVIDIA GPU
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NVidia TEGRA Global Power Management System:
•Use of Numerous distributed hardware monitors.
•The feed back from the moniters is used to determine the optimal operating frequency and voltage for the active processors.
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Ground-Breaking Performance and Battery Life:The following use cases illustrate battery life a user can expect from an NVIDIA Tegra-based tablet (with 2000 mAh battery and 400 mW display)•Stand-by•Music playback•HD video playback on local LCD•HD video playback on external display
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Contd.
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Advantages:•Lower power consumption , Higher
performance per watt
•Faster Web page load times
•Higher Performance for demanding applications
•Faster Multitasking
•Higher Quality Gaming
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Conclusion:
•Dedicated, high-performance processors deliver snappy Web browsing, flawless streaming HD Flash video, and an exceptional mobile gaming experience.
•The revolutionary multi-processor architecture and power management features of NVIDIA Tegra deliver an exceptional mobile visual computing experience with uncompromised battery life.
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References:• A white paper on “TEGRA MULTIPROCESSING
ARCHITECTURE” published by NVIDIA CORPORATION during 2010.
• A white paper on “THE BENEFITs OF QUAD-CORE CPU’s IN MOBILE DEVICES” published by NVIDIA CORPORATION during 2011.
• en.wikipedia.org/wiki/Tegra• http://www.domaintools.com/internet-statistics/• http://techcrunch.com/2009/06/09/youtube-video-streams-top-1-
billionday/• http://www.facebook.com/apps/application.php?id=102452128776• en.wikipedia.org/wiki/System_on_a_chip• videoreference: http://www.youtube.com/watch?
v=thwgwQMXR84