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088768 - ARCHITETTURE AVANZATE DEI CALCOLATORI
Prof. Cristina Silvanoemail: [email protected]
Dipartimento di Elettronica, Informazione e Bioingegneria (DEIB)Politecnico di Milano
http://home.deib.polimi.it/silvano/aac.htm
AA 2013/2014
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Goals of the AAC course
Provide an overview of the most recent and advanced computer architectures
Introduce the basic micro-architectural mechanisms found in modern microprocessor architectures
Provide the reasoning behind the adoption of advanced computer architectures
Advanced Computer Architectures:IBM Blue Gene P Supercomputer
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Advanced Computer Architectures:Smart phones
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Advanced Computer Architectures:Intel® Core™ i7-3770T Processor (Nehalem, up to 3.70 GHz)
160mm² die @ 22nm 1.40 billion transistors.
# of Cores 4
# of Threads 8
Clock Speed 2.5 GHz
Max Turbo Frequency 3.7 GHz
Intel® Smart Cache 8 MB
Instruction Set 64-bit
Instruction Set Extensions SSE4.1/4.2, AVX
Embedded Options Available No
Lithography 22 nm
Max TDP 45 W
Recomm. Customer Price TRAY: $294.00
Max Memory Size 32 GB
Memory Types DDR3-1333/1600
# of Memory Channels 2
Max Memory Bandwidth 25.6 GB/sCristina Silvano – Politecnico di Milano
ARM Cortex-A8 core processorin Apple A4 System-on-Chip
Based on the ARMv7 architecture It’s a dual-issue in-order execution design The Apple A4 at 1 GHz (45nm manufactured by Samsung from March
2010 to present), a System-on-Chip that combines an ARM Cortex-A8 and a PowerVR GPU, is in the:
• Original iPad, April 2010• iPhone4: June 2010 (Black; GSM), February 2011 (Black; CDMA),
April 2011 (White; GSM & CDMA)• iPod Touch (4th generation): September 2010 (Black model),
October 2011 (White model)• Apple TV (2nd generation): Sept. 2010
6
ARM Cortex-A9 MP core processor in Apple A5 System-on-Chip
Based on the ARMv7 architecture It’s a dual-issue in-order execution design The Apple A5 at 1 GHz (45nm to 32 nm manufactured by Samsung
from March 2011 to present), a System-on-Chip that combines a dual core ARM Cortex-A9 with NEON SIMD accelerator and a dual core PowerVR GPU, is in the:
• iPad 2 (A5 dual-core 45 nm) – March 2011; (A5 dual-core 32 nm) –March 2012
• iPhone 4S (A5 dual-core 45 nm) – October 2011• Apple TV 3rd generation (A5 single-core, 32 nm) – March 2012• iPod Touch 5th generation (A5 dual-core 32 nm) – October 2012• iPad Mini (A5 dual-core 32 nm) – November 2012
7
Apple A6 SoC was introduced on Sept. 2012 for the iPhone 5 Apple states that it is up to twice as fast and has up to twice the
graphics power compared to its predecessor the Apple A5 The A6 uses a 1.3 GHz custom Apple-designed ARMv7 based dual-core
CPU, called Swift, and an integrated triple-core PowerVR SGX 543MP3 GPU.
The A6 chip for iPhone 5 incorporates 1GB of LPDDR2-1066 RAM and provides double the memory capacity of iPhone4S while increasing the theoretical memory bandwidth from 6.4 GB/s to 8.5 GB/s.
8
Apple A6 System-on-Chip
Apple A6 System-on-Chip
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ARMv7s ISA dual core Triple-core PowerVR
SGX 543MP3 GPU 1MB L2 cache 1.3 GHz 32nm Samsung 96.71mm2 (22% smaller
than A5)
Moore’s Law (1965) says that the numbers of transistors on a processor will double every 18 to 24 months
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Stopper: Max. Clock Freq. Wall
Chip density is continuing increase ~2x every 2 years
Clock speed is not
Expose parallelism in a coarser level than ILP
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Source: Intel, Microsoft (Sutter) and Stanford (Olukotun, Hammond)
Stopper: On-Chip Temperature Wall
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Paradigm shift : Multi-core architectures
65 nm1.4 mm2
90 nm, 2.6 mm2
130 nm, 5.2 mm2
ARM 9180 nm11.8 mm2
Source: STMicroelectronics
Intel 80 core
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NVIDIA Fermi GPU
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NVIDIA Tesla GPU
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Kepler GK110 Architecture• 7.1B Transistors• 15 SMX units (2880 cores)• >1TFLOP FP64• 1.5MB L2 Cache• 384-bit GDDR5• PCI Express Gen3
Dark Silicon ProblemDARK SILICON : chip fraction not
usable due to the power budget
Processor frequency is affected by technology effects (e.g. Vth)
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AAC Course Schedule
Schedule: First Semester 2013-2014 (FALL 2013)
WEDNESDAY 10.15 - 12.15 Location: L.26.11 Leonardo Campus
THURSDAY 10.15 - 12.15 Location: L.26.16 Leonardo Campus
Contact Information
Office hours for students:Tuesday 10.00 - 11.00 at DEIB, Via Ponzio 34/5 First floor –Internal phone number: 3692 (better to send an email to get an appointment).
Main Contact: The students can contact prof. Cristina Silvano bye-mail ([email protected])by indicating: Subject: AAC COURSE Milano, Your_Surname, Your_Name, Your_POLIMI_ID_NUMBER
Please use your POLIMI student e-mail account: [email protected]
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AAC Teaching Assistants
Prof. Giovanni Agostae-mail ([email protected])
Prof. Gerardo Pelosie-mail ([email protected])
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AAC Course Info
Teaching Activity: The course consists of 5 CFU and it is organized in 30 hours of lectures and 20 hours of written/tool-based exercises to prove the concepts presented during the lectures.
Pre-requirements: Basic concepts on logic design and computer architectures.
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AAC Final Exam
FINAL EXAM:The final exam consists of a written exam. For each written exam, a max. score of 33 points will be assigned: max. 15 points will be assigned for the solution of the exercise part and max. 18 points will be assigned for answering to the theory part.
It is possible to ask an OPTIONAL project to the instructor. The project must be concluded by January 31st, 2014 (firm deadline). The project assign an additional score up to max 5 points. The additional points given by the project will be added to the score of the written exam only if the final score of the written exam will be sufficient (>=18).
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AAC Teaching Material
Additional information in slides and papers available through the course webpage: http://home.dei.polimi.it/silvano/AAC.htm• If you're using MOZILLA FIREFOX AS WEB BROWSER, for a correct
visualisation and printing of the PDF SLIDES, please use the SAVE AS option and save the PDF FILE on your laptop for correct visualisation and printing.
Reference Book: "Computer Architecture, A Quantitative Approach", John Hennessy, David Patterson, Morgan Kaufmann, Fourth Edition.
Support for the international students
AAC course is offered in Italian Teaching materials (slides/papers/textbook) available in
English Final exam can be done in English Teaching support available in English Please notice international students can follow the
course HPPS (High Perfomance Processors and System) held by prof. Donatella Sciuto during the Second Semester 2013 - 2014. HPPS Course is completely offered in English. AAC course objective and program are aligned with HPPS course.
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Overview of the AAC topics
How to increase performance while decrease the design cost ? • RISC: Reduced Instruction Set Computer• Pipeline
Can we gain more ?• Branch prediction• Instruction Level Parallelism (ILP)• Multithreading• Multiprocessors
Still performance does not scale ?• Memory hierarchy• Cache organization
Main lectures topics (1)
Review of basic computer architecture definitions and components (Central Processing Unit, Memory System, Input/Output Interfaces, Communication System)
Basic performance evaluation metrics of computer architectures Memory hierarchy: Basic and advanced concepts. Multi-level caches.
Performance evaluation, optimisation techniques. Central Processing Unit: the RISC approach (Reduced Instruction Set
Computer).
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Main lectures topics (2)
Techniques for performance optimization: • Pipelining: The problem of hazards: structural, control and data
hazards; Optimization techniques to solve the problem of hazards
• Branch prediction techniques: Static and dynamic branch prediction techniques
• Speculative execution
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Sequential vs. Pipelining Instruction Execution
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I2
…
I1
WB MEM EX ID IF WB MEM EX ID IF
10 ns 10 ns
Main lectures topics (3)
Instruction Level Parallelism (ILP): • Static and dynamic scheduling;• Superscalar architectures;• VLIW (Very Long Instruction Word) architectures;
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Instruction Level Parallelism: Example of 2-issue processor
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2 ns
Time
I2
I3
I1
WBMEMEXIDIF
2 ns
WBMEMEXIDIF
WBMEMEXIDIF
WBMEMEXIDIF
WBMEMEXIDIF
I4
I5
WBMEMEXIDIF
WBMEMEXIDIF
WBMEMEXIDIF
WBMEMEXIDIF
WBMEMEXIDIF
2 ns
2 ns
I7
I8
I6
I9
I10
I1
I2
Instruction Per Clock = 2CPI = Clock Per Instruction = 0.5
Beyond ILP: Multithreading
Threads: Independent sequences of instructions
Single-threaded program Multi-threaded program
…
Main lectures topics (4)
Beyond ILP:• Multithreading (Thread Level Parallelism – TLP)• Multiprocessors and multicore systems: taxonomy,
topologies, communication management, memory management, cache coherency protocols, example of architectures
• System-on-Chip and Network-on-Chip architectures; Digital Signal Processors; Stream processors and vector processors; Graphic Processors
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