Upload
brenden-pope
View
24
Download
0
Tags:
Embed Size (px)
DESCRIPTION
Optical Computing. A Presentation on CSE 532/ CEG 433 Advanced Computer Architecture. M . Rubaiyat Bin Sattar [email protected] 14/9/2010. Submitted to Dr. Abul L Huq Course : CEG 433 , summer 2010. - PowerPoint PPT Presentation
Citation preview
Submitted to Dr. Abul L Huq Course : CEG 433 , summer 2010
Optical Computing A Presentation on CSE 532/ CEG 433 Advanced Computer Architecture
M . Rubaiyat Bin [email protected]/9/2010
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Introduction
• General meaning of the optical computing is the light computing. → Laser beam instead of electric current.
all internal circuits uses light instead of electricity.
Optical computing was the hot research topic in 1980’s but for the limitation of materials it was not implemented. Engineers are still trying to implement a complete optical computer .Today's Optical computer known as Electro-optical-hybrid computer in which data is received by electron and transferred by Optics .
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Background of optical computer
Albert Einstein says : speed of light is 3*10^8 per second which is about 186,000 miles per second. So if we can make a computer with light it will be faster than anyone can ever think of.
→ Prism and lens (1st idea )Limitation :distortion of light
→ GaAs VLSI technology and same time silicon photonic (Significant change )
Now An Optical Computer also called a photonic computer.
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Basic Concept in Optics--> Wave Optics
--> Polarization & Anisotropic Crystals --> Lens as Phase Transformation
--> Coherency --> Fourier Optics
•Wave optics attempts to explain light as wave phenomena means wave format. Speed-of-light, 3108 km / sec. v = = c
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Basic Concept in Optics--> Wave Optics
--> Polarization & Anisotropic Crystals --> Lens as Phase Transformation
--> Coherency --> Fourier Optics
• Manipulation of information carried by electromagnetic waves•The basic operation is the double Fourier transformations.
In the below picture green laser for writing the hologram of the input array and a red laser for reading-processing.
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Basic Concept in Optics--> Wave Optics
--> Polarization & Anisotropic Crystals --> Lens as Phase Transformation
--> Coherency --> Fourier Optics
• Study of classical optics using Fourier Transforms.[a] 1D-2D Fourier transform[b] Correlation, Convolution[c] Storing complex function in film [d] Phase hologram
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Basic Concept in Optics--> Wave Optics
--> Polarization & Anisotropic Crystals --> Lens as Phase Transformation
--> Coherency --> Fourier Optics
• A thin lens acts as a phase transformation if(i) a ray entering at coordinates (x, y) (ii) same coordinates on the opposite face.
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Basic Concept in Optics--> Wave Optics
--> Polarization & Anisotropic Crystals --> Lens as Phase Transformation
--> Coherency --> Fourier Optics
•The term anisotropy refers to a non-uniform spatial distribution, which result different value from several direction within same material•It can pass through at a single velocity.
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Devices for Opto-Electronic Interface--> VCSEL--> SLMs--> Integrated Optics
i) WDMii) Spectrum
Vertical-cavity surface-emitting laser :• semiconductor vertical cavity surface emitting laser diode that emits light in a cylindrical beam vertically from the surface of a fabricated wafer.
VCSEL device structure and diagram
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Devices for Opto-Electronic Interface--> VCSEL--> SLMs--> Integrated Optics
i) WDMii) Spectrum
Vertical-cavity surface-emitting laser :• semiconductor vertical cavity surface emitting laser diode that emits light in a cylindrical beam vertically from the surface of a fabricated wafer.
Wafer Surface
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Devices for Opto-Electronic Interface--> VCSEL--> SLMs--> Integrated Optics
i) WDMii) Spectrum
VCSEL
• VCSEL convert electric singal to optical when pass through pair of lenses .• Micro-mirrors are used to direct the light beam•Photodiode convert the optical signal back to the electrical signal
How VSCEL and Photodiode used for interconnection in circuit board:
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Devices for Opto-Electronic Interface--> VCSEL--> SLMs--> Integrated Optics
i) WDMii) Spectrum
•A spatial light modulator (SLM) is an object that imposes some form of spatially-varying modulation on a beam of light. →Basically it is used for display purpose.
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Devices for Opto-Electronic Interface--> VCSEL--> SLMs--> Integrated Optics
i) WDMii) Spectrum
WDM (WAVELENGTH DIVISION ULTIPLEXING) :• is a method of sending many different wavelengths . It can transmit at 10 gigabits per second through the same fiber at the same time.
Separating a beam of light into its colors
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Devices for Opto-Electronic Interface--> VCSEL--> SLMs--> Integrated Optics
i) WDMii) Spectrum
Applications to Spectrum Analysis and Filtering • Spectrum can be calculated from the result of a wavelet transform. This high pass filter is calculated as the quadrature mirror of the low pass filter for analysis with orthogonal wavelets.
A wavelet is a wave-like oscillation with an amplitude.Quadrature mirror filter split a input signal into two band
→The role of smart pixel technology and nonlinear material in optical computing has become extremely significant
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Optical Computer ArchitectureDeMorgan’s Law
Shannon’s Law
Parallelism
2D InterConnect
Logic Gates
DeMorgan’s Law Three most basic hardware components . They are > Source, a modulator, and a detector.
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Optical Computer ArchitectureDeMorgan’s Law
Shannon’s Law
Parallelism
2D InterConnect
Logic Gates
DeMorgan’s Law
Two set of input gate /Two words
Acoustic optic cell means sound or the sense of hearing (Like in a musical instrument)
ELECTROD
function as OR gate
DeMorgans law the output of the inverter <AND>
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Optical Computer ArchitectureDeMorgan’s Law
Shannon’s Law
Parallelism
2D InterConnect
Logic Gates
Shannon’s Law
The control logic architecture
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Optical Computer ArchitectureDeMorgan’s Law
Shannon’s Law
Parallelism
2D InterConnect
Logic Gates
Shannon’s Law
CONTROL LOGIC
Transducers
AND OP
OR OP
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Optical Computer ArchitectureDeMorgan’s Law
Shannon’s Law
Parallelism
2D InterConnect
Logic Gates
Shannon’s Law
AND function represent by following way :f1=x1x2x3….xnf(1,1,1,…1)f2= 1x2x3…xnf(0,1,1……1)x̄�f3=x1 2x3…xnf(1,0,1…..1)x̄�f4= 1 2x3….xnf(0,0,1…..1)x̄� x̄�.............................................Fk= 1 2 3……. f(0,0,…..0)x̄� x̄� x̄� x̄�n̄�
OR’ed and Boolean summed is –Y(x1,x2,x3….xn)=f1+f2+f3…fk [ where K=2^N functional ]
AND
OR
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Optical Computer ArchitectureDeMorgan’s Law
Shannon’s Law
Parallelism
2D InterConnect
Logic Gates
Parallelism
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Optical Computer ArchitectureDeMorgan’s Law
Shannon’s Law
Parallelism
2D InterConnect
Logic Gates
Parallelism
DL = 1
All control matrices recorded in the hologram
DANE (detection ,amplification , negation and emissionCylindrical lens placed between DANE and output detector array represent most primitive parallel method
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Optical Computer ArchitectureDeMorgan’s Law
Shannon’s Law
Parallelism
2D InterConnect
Logic Gates
2D InterConnect
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Optical Computer ArchitectureDeMorgan’s Law
Shannon’s Law
Parallelism
2D InterConnect
Logic Gates
2D InterConnect
Two dimensional input data arraytwo dimensional control operate array
Second operate Array
2 Detector Plane
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Optical Computer ArchitectureDeMorgan’s Law
Shannon’s Law
Parallelism
2D InterConnect
Logic GatesLogic Gates
Ultra-fast All-Optical LOGIC GATES for optical computing
Green pulsed Nd:YAG input laser was used together with a red continuous wave (cw) He-Ne beam.
He-Ne laser is the most widely used laser with continuous power
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Basic Structure of an Optical Computer
•1A,1B,3A,3B,5A,5B,7A,7B , 9A,9B are quadrangular prism provided to redirect pass respective orthogonal light beams in single direction.
•Thin Film element 2,4,6,8 respectively provided between blocks 1 and 3, between 3 &5, between 5 & 7 and between 7& 9
•Uniform Transfer light beams are 11, 12 13 and 14 from respective light source I, II,III and IV
•21,22,23,24,25,26,27 & 28 denote excitation light beams. These light beam Irradiate onto the respective prism through prism surface.
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Holographic Memory
→Holographic data storage is a potential replacement technology in the area of high-capacity data storage.
→ In a holographic memory device, a laser beam is split in two, and the two resulting beams interact in a crystal medium to store a holographic recreation of a page of data.
→ 1 terabyte (TB) of data in a sugar-cube-sized crystal.
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Optical Development Boom Worldwide• Photonics development is booming worldwide
•significant milestone and information between brain on chip with the process of light instead of electrical signal.
•Using light instead of wires to send information between the cores can be as much as 100 times faster
• This technology has the power to invent today’s super computer
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Optical Computing : Next Generation•Entirely optical computers will be invented in future .
•We will see light without logic .Optical devices will take place inside computers. NASA Scientist are working for that .
•Optical computer networking will introduced in future .
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Optical Computing : Next Generation
Scientist discovered an inch-long Amazonian beetle could hold the key to next-generation optical computer chips. They found significant path for making today’s light computer after researching on naturally possessed of a molecular arrangement.
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Conclusion
Optics has been used in computing for a number of years but for the limitation of materials we have been seeing Electro-optical-hybrid .Optical technology applied in today’s CD-Rom driver and their relatives, laser printer, scanner and in mouse. It is not so far when we will see total optical computer .
The smart pixel technology , rapid progress in silicon photonic , GaAs VLSI technique and faster design in algorithm will bring the new generation Super optical Computer .
A Presentation on CEG 433 Advanced Computer Architecture Optical Computing
Introduction Background Concept Devices Architecture
MemoryStructure Development Next Generation Conclusion
Thank You