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![Page 1: Oct 25, 20051 Program Perspectives on Quantum Information Michael Foster National Science Foundation.](https://reader036.fdocuments.net/reader036/viewer/2022062322/5697c00a1a28abf838cc7b26/html5/thumbnails/1.jpg)
Oct 25, 2005
1
Program Perspectives on Quantum Information
Michael Foster
National Science Foundation
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Oct 25, 2005
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Outline
• Computing & Communication Foundations
• QIS Bumper Stickers
• Quantum Computing
• Quantum Key Distribution
• Support agencies
• Where next?
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Oct 25, 2005
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Why Foundations?
-=
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Oct 25, 2005
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Foundations Everywhere
Infrastructure
Systems
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Oct 25, 2005
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Quantum InformationBumper Stickers
• Quantum computation– State superposition provides parallelism
• Quantum communication– No cloning theorem provides unforgability
• Quantum metrology– Entanglement provides consistent measurement
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Oct 25, 2005
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Quantum Computation
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Oct 25, 2005
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QIP and Moore’s Law
Year
1850 1950 20001900 2050
10-6
103
1
10-3
106
109
Babbage Engine
CMOS ICs
TX-2
ENIAC
Differential Analyzer
GeneralArchitecture
Lattice-GasArchitecture
Quantum Dots
Liquid NMR
Conve
ntio
nal C
ompu
ter R
oadm
ap
QC
Roa
dmap
MIPS
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Oct 25, 2005
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Power of Qubits
•Qubit = state of a quantum two-level system
1,1022 Continuum of states!
1 classical bit has two states: 0 and 11 qubit has “infinitely” many states!
•Physical realizations of qubits:•photon polarization•electron spin•nuclear spin•pair of electron states in a trapped ion/atom•magnetic flux state in a Josephson junction ring•Cooper pair number states, etc.
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Oct 25, 2005
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Power of Qubits
A classical 3-bit state: 001A quantum 3-qubit state:
111110101011100010001000
N qubits is worth 2n classical bits!•Entanglement
•Multiple qubits
101011100100
1001
1100
Not entangled
Entangled!
PhotonsOptical
Parametric Amplifier
OpticalParametric Amplifier
EPR photon pairEPR photon pair
or
NEVER
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Oct 25, 2005
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Power of Quantum Computation
•Quantum Parallelism
An exponential amount of computation has been achieved in the time it takes to compute the function on a single input!
2n values of F(x) all in one go!!
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Oct 25, 2005
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NP BQP?
Provably Q-hard algorithms
PSPACE
BQP
P
NP
Factorization (Shor)
Unsorted Search(Grover)
GraphIsomorphism?
Protein Folding?
Ajtai–Dwork Coding?
Quantum Complexity
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Oct 25, 2005
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Permutation Order-Finding (Chuang et al, ‘00)•Permutation is an operation that rearranges a set of objects
•Order r of a permutation applied to element y of a set is the minimum number of times must be applied to put y back in its original position
•Problem has wide range of applications (Cryptography)
QIP: An Example Algorithm
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Oct 25, 2005
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Classical versus Quantum
Classical approach:•Series of trials to find the x-th permutation x(y).
•Find equality. When a(y)= b(y) then ord() | a-b
•Number of trials needed increases exponentially with the number of bits representing y
Quantum approach:•Order is the period of a functionfy(x) = x(y)
•Quantum Fourier Transform allows us to find periods of all x(y) with one transform
•Exponential speedup-- Minimum number of steps proportional to bits in y
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Oct 25, 2005
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Classical Order-Finding
2
3
rYY
3
7
AA
ZZ
MM
AA
FF
2
26
15
Check Equality
Classical approach:
What a permutation really looks like:
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Oct 25, 2005
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Quantum Order-Finding
YY
3
7
AA
ZZ
MM
AA
FF
2
26
15
Quantum approach:
Equality
Large Fourier Components
Quantum Fourier
Transform
Checks Equality in
Parallel
Likely result
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Oct 25, 2005
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Quantum Fourier Transform (QFT)
• Variant of the Discrete Fourier Transform (DFT) that can be implemented on a quantum computer
• At the heart of Factoring and Order-Finding problems• QFT transforms state amplitudes to state amplitudes
– NOT qubits to qubits
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Oct 25, 2005
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QFT in Order Finding
x
y
H HR
Superpose QFTMeasure
x(y)
•States are measured according to their probability
•Many states at P produce the same x(y)
•QFT produces their frequency
•Probably answer reflects large number of states at P
PAnswer
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Oct 25, 2005
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Status of Computing
• Proof of concept factoring (2001)Chuang et al. 4-bit Shor algorithm implementation (2001)
•Ongoing ion-trap implementation effort
•Some optical lattice efforts
•Solid-state spins moving slowly
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Oct 25, 2005
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Ion Trap Investigations
• Done (per ARDA Roadmap April 2, 2004)– 2-qubit operations demonstrated– Long decoherence times in progress– 3-10 qubit operations started
• Proposed (individual researchers)– 10-20 qubit registers– Architectures with 1000 circulating qubits
• Possibility– 20 logical qubits (2-level error correct 1000 qubits)– 10 bit factoring
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Oct 25, 2005
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Optical Lattices
• Done (individual researchers)– 110 site lattice loaded from BEC with 200
atoms/site
• Proposed (individual researchers)– 8000 sites with CO2 lasers proposed by
Berkeley QuIST project• Filling factor 1/2
– Permits 80 logical qubits– Permits 40 bit factoring
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Oct 25, 2005
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Architectural Roadblocks
• Classical control– Large feature sizes for control lines mean large computers
• Wiring and corners– Moving qubits leads to decoherence
• Error correction– More check bits than data bits
• Cumulative effect– May need 100,000 times longer decoherence times than
required by operations alone (Balensiefer et. al, ISCA32, 2005, pp186-196).
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Oct 25, 2005
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Quantum Security
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Oct 25, 2005
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Quantum Key Distribution
• Use unforgability to detect eavesdropping
• Shared generation of secure key
• Extensive classical processing
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Oct 25, 2005
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Oct 25, 2005
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Status of Key Distribution
QKDEndpoint
Encrypted Trafficvia Internet
QKDEndpoint
QKD Switch QKD Switch
QKD Switch
QKD Switch
QKD Repeater
PrivateEnclave
PrivateEnclave
Ultra-Long-Distance Fiber
End-to-End Key Distribution
BBN-AFRL-QuIST Network Rollout June 1, 2004
NEC 2-week demonstration May 31, 2005 (AFRL-QuIST inside?)
13kb/sec sifted key over 16km commercial access optical network
ID Quantique Turnkey System
Available throughout Switzerland June 05
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Oct 25, 2005
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Support Agencies
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Oct 25, 2005
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DARPA Mission
Focused strategic thrusts
Specific programs
Emphasize transition
Source: Bridging the Gap February 2005
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Oct 25, 2005
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DARPA Organization
Source: Bridging the Gap February 2005
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Oct 25, 2005
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QIP in DARPA Organization
Source: Bridging the Gap February 2005
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Oct 25, 2005
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NSF Mission
National Science Foundation Act of 1950 (Public Law 810507):
• To promote the progress of science; • to advance the national health, prosperity,
and welfare; • to secure the national defense; • and for other purposes.
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Oct 25, 2005
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NSF Organization
D ire c to ra te fo r B io lo g ica lS c ie n ces
D ire c to ra te fo r M a th e m a tica l& P h ysica l S cie n ces
D ire cto ra te fo r C o m pu te r &In fo rm atio n S cie n ce an d E n g in e ering
D ire c to ra te fo r S o cia l, B eh v io ra l& E con o m ic S c ie n ces
D ire cto ra te fo r E d u ca tion& H um a n R e sou rces
D ire c to ra te fo r G e o sc ie n ces
D ire cto ra te fo r E n g ine e ring O ffice o f P o la r P ro gra m s
O ffice o f In te gra tive A c tiv it ies
O ffice o f the D ire c to r
N a tion a l S cie n ceB o a rd
Administrative Offices
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Oct 25, 2005
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QIP in NSF Organization
D ire c to ra te fo r B io lo g ica lS c ie n ces
D ire c to ra te fo r M a th e m a tica l& P h ysica l S cie n ces
D ire cto ra te fo r C o m pu te r &In fo rm atio n S cie n ce an d E n g in e ering
D ire c to ra te fo r S o cia l, B eh v io ra l& E con o m ic S c ie n ces
D ire cto ra te fo r E d u ca tion& H um a n R e sou rces
D ire c to ra te fo r G e o sc ie n ces
D ire cto ra te fo r E n g ine e ring O ffice o f P o la r P ro gra m s
O ffice o f In te gra tive A c tiv it ies
O ffice o f the D ire c to r
N a tion a l S cie n ceB o a rd
Administrative Offices
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Oct 25, 2005
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CISE Mission
• to enable the United States to remain competitive in computing, communications, and information science and engineering;
• to promote understanding of the principles and uses of advanced computing, communications, and information systems in service to society; and
• to contribute to universal, transparent, and affordable participation in an information-based society.
CISE has three goals:
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Desired Project Characteristics
• DARPA – Fast Results– Military need
– Technical challenges and plan for meeting them
– Transition plan
• NSF – Sustained Effort– Asks fundamental questions
– Maintains U.S. competitiveness
– Societal need
– Broad participation
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Oct 25, 2005
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DARPA Program Highlights
QKDEndpoint
Encrypted Trafficvia Internet
QKDEndpoint
QKD Switch QKD Switch
QKD Switch
QKD Switch
QKD Repeater
PrivateEnclave
PrivateEnclave
Ultra-Long-Distance Fiber
End-to-End Key Distribution
QuIST Network Rollout June 1, 2004
Chuang et al. 4-bit Shor algorithm implementation (2001)
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Oct 25, 2005
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NSF Program HighlightsInstitute for Quantum
Information at Caltech
CAREER Award: Yaoyun Shi at U. Michigan
Quantum Complexity and Polynomial Approximations of Boolean Functions
– Quantum and classical tradeoffs
– Classical simulation of quantum communication.
– Phase transition in biological signaling systems
– Education plan: theory of computation courses
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Oct 25, 2005
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Where Next for Communication?
• DARPA– Long range demonstrations between metronets– GtoA and GtoS demonstrations– ConOps for QKD
• NSF– New protocols– Security bounds
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Oct 25, 2005
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Where Next for Computation?
• New algorithms– Exponential speedups, please!– (Hashing outdoes unstructured search)
• New applications of existing algorithms– Pell’s equation– Random walk
• Scalable architectures– Controllable– Fault tolerant
• Medium-scale implementations– 10’s of qubits– Probably beyond NSF resources
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Oct 25, 2005
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The Near Future
• NSF budget is down 3% in 2005, looks flat
• DoD will need transitions beyond crypto
• New algorithms and protocols are needed for the next push– Scalable architectures too
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The Want Ads
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Oct 25, 2005
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Program Directors Sought
• Numeric, Symbolic, Geometric computing
• Emerging Models and Technologies
• Interdisciplinary capability– Across cluster, division, NSF, and globally
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Contact
• Vacancy announcements appear on www.nsf.gov• Meanwhile contact
Michael Foster
Division Director
Computing & Communication Foundations
National Science Foundation
4201 Wilson Boulevard
Arlington, VA 22230
703-292-8910