Contenu connexe Similaire à The Top-5 Technologies All Organizations Must Understand (20) The Top-5 Technologies All Organizations Must Understand3. @ShahinKhan
ª The Industrial revolution
changed most aspects of life
ª The Information Revolution is
just starting
ª This is why we are seeing so
many big trends at the same
time
ª It’s too many buzzwords but
understanding them in one place
is mandatory
©2020 OrionX.net 3
Revolutions Change Things
4. @ShahinKhan
Enterprise as a System Opportunity and Threat
The Future
©2020 OrionX.net 4
Digital Transformation
QuantumIoT
5G Blockchain
AI / HPC
5. @ShahinKhan@ShahinKhan
The opportunity is incredibly rewarding.
New markets. New business models.
e.g. Nvidia
The threat is unmistakably existential.
New competition. New customer needs.
e.g. many!
Why should you care?
@ShahinKhan
8. @ShahinKhan
Everything is Smart
ª Embedded, Mobile, Cloud
ª Scale, Reliability, Speed, Ease of use, Environmentals, Cost
ª Attack surface
ª Lots of protocols
– LPWAN, Zigbee, SigFox, LoRa, 3G-4G-5G, BLE, WiFi, OpenRAN, etc.
IoT
©2020 OrionX.net 8
Event Control
Trigger Command
Insight Policy
Business Objectives
Level-0: Devices
Level-2: Intelligence
E d g e
G l o b a l
L o c a l
M2M
Switch
Router
Sensors
Lake
Gateway
Level-1.x: Local Treatment
Cloud
Mobile
Embedded
©2020 OrionX.net
9. @ShahinKhan
Data is the new oil
IoT
Big picture
©2020 OrionX.net 9
Atoms – Things
Bits – Information
Physical Twin
Digital Twin
Data Economy
Data Sources
GovernanceApplicationsDataDevices
Data Supplies Data Product Data Market
Security
{Device, Mobile} to Cloud Cloud to {Insight, Control, Commerce}
©2020 OrionX.net
10. @ShahinKhan
Everything is Connected
ª Big next-generation standard, hot global topic
ª Two different similar 5G standards
– 3GPP
– IMT-2020
ª Buzzwords (Service Classes)
– eMBB (enhanced Mobile BroadBand)
– URLLC (Ultra Reliable Low Latency
Communications)
– mMTC (massive Machine Type Communications)
ª Wide spectrum
– Millimeter waves: ~30GHz-300GHz
– 200 to 950 MBytes/s have been measured
– Spectrum allocation impacts speed, etc.
5G
©2020 OrionX.net 10
ª Issues
– Suburban and rural coverage
– Access inside buildings or in snow/rain
– Lingering health concerns
ª Classes of technologies
– Handset, Tower, Picocells, Back-end Switches
– Software: Serverization, Network Function
Virtualization (NFV), Open Cellular, SDN, etc.
ª Real-looking use cases
– Tele-surgery
– Driverless cars: Vehicle-to-Everything (V2X), V2V,
V2I (Infrastructure)
– Edge Computing
– VR/AR (maybe?)
Coverage
100%
Low Power
90% less
Back-end
Robustness
Density
1mil
devices/km2
Precision
<1m
Latency
1ms
Bandwidth
20 Gbps
13. @ShahinKhan
Technology Options
Classical
Quantum
Digital Analog
Post Laws
Quantum Gate Quantum Annealing
Mixed Signal
Source: Radical Semiconductor and OrionX collaboration
©2020 OrionX.net 13
Concurrency
Intensity
Vector/GPU
In-Memory
ClusterReplicate Systems
Memory
Compute
Serial Parallel
Single-Node
Traditional
Models
AI
Algorithmic
©2020 OrionX.net
16. @ShahinKhan
Intelligence is Computable
AI =
High
Performance AI
©2020 OrionX.net 16
Artificial Intelligence
Search
Logical
Expert SystemStatistical
Numerical
Optimization
Big Data
Simulation / HPC Automation / IoTCloud
Big Rules of
Big Data
AIIoT
©2020 OrionX.net
©2020 OrionX.net
17. @ShahinKhan
ª Autonomy limited by
the precise definition
of the scope
ª Tolerance for mistakes
ª Used for good or evil?
ª Elimination of large
classes of jobs by AI
systems.
ª Darwinian mistake?
ª Asimov rules for
robots
ª Arguably a more
important parameter
than technological
advances
ª Unintended
consequences
ª System complexity can
exceed human
competence
(Grand) Challenges
Ethical ComplexityUnpredictability Legal Framework Autonomy
©2020 OrionX.net 17
18. @ShahinKhan
Everything is a Probability Function
ª “Overhyped and Underestimated”, Hot, and will remain hot for the next decade
ª Current state: NISQ: Noisy Intermediate Scale
ª Global push: tens of serious efforts in multiple applications
ª Used as an accelerator to classical computing, Programmability advancing
ª Buzzwords: QIS, Supremacy, Y2Q, Quantum-safe Cryptography, QML, QEC, QKD, ..
Quantum
Computing
©2020 OrionX.net 18
Qubits
Probability
Functions
Universal
QC
De-coherence
Cryogenics
Many
approaches
Lasers
Photonics
Solid State
• • •
Electron Hole
Boson Sampling
Trapped Ion
Annealing
Positronics
• • •
©2020 OrionX.net
19. @ShahinKhan
ª Quantum Annealing
ª Gate Model
– Trapped atom/ion
– Photonics
– Topological
ª Cryogenics
ª Decoherence, QEC
ª Quantum Volume
– Count
– Connectivity
– Fidelity
ª Entangled Photon
ª Repeaters
ª Teleportation
ª Internet
ª Older examples
– Atomic Clocks
– Magnetometers
ª Emerging uses
– Sensors that respond to
quantum stimuli
– Single-atom level
– Quantum energy levels
– Entanglement to improve
accuracy/sensitivity
Quantum Market Segments
©2020 OrionX.net 19
Computing Communications Sensing
20. @ShahinKhan
ª Coins/Tokens
ª Addresses
ª Cryptography
ª Wallets
ª Smart Contracts
ª Exchanges
ª Apps
ª Bitcoin digitized gold
– Mining
ª Blockchain distributed ledger
– Authenticity via computational
challenge
ª Increasing acceptance
ª Increasing use cases
ª But: legal challenges
Digital Money?
©2020 OrionX.net 20
The Satoshi Paper, Oct. ’08 Components Bitcoin
Bitcoin: A Peer-to-Peer Electronic Cash System
Satoshi Nakamoto
satoshin@gmx.com
www.bitcoin.org
Abstract. A purely peer-to-peer version of electronic cash
would allow online payments to be sent directly from one party
to another without going through a financial institution. Digital
signatures provide part of the solution, but the main benefits are
lost if a trusted third party is still required to prevent double-
spending. We propose a solution to the double-spending
problem using a peer-to-peer network. The network timestamps
transactions by hashing them into an ongoing chain of hash-
based proof-of-work, forming a record that cannot be changed
without redoing the proof-of-work. The longest chain not only
serves as proof of the sequence of events witnessed, but proof
that it came from the largest pool of CPU power. As long as a
majority of CPU power is controlled by nodes that are not
cooperating to attack the network, they'll generate the longest
chain and outpace attackers. The network itself requires
minimal structure. Messages are broadcast on a best effort
basis, and nodes can leave and rejoin the network at will,
accepting the longest proof-of-work chain as proof of what
happened while they were gone.
22. @ShahinKhan
ª Like old days
ª Both sides need the same key
ª Key must be kept secret
ª Must avoid eavesdroppers
ª Need a trusted way to
communicate
ª Assume eavesdropping, but
ª Make it difficult to decipher
ª Need 3 ingredients such that
– f ( (a,b), c) = f ( (a,c), b)
– f is easy to calculate, but its
inverse is very hard, eg
modular arithmetic
– a is public, while b and c are
private
– Both sides now have a shared
key
ª Provably random numbers
ª Quantum Key Distribution
– Entangled key transmission
– Superposition photons
– Sifting
– Distilling
Public Key Encryption – Basic Concept
©2020 OrionX.net 22
Symmetric Asymmetric Quantum
23. @ShahinKhan
Trust is computable
Blockchain
Emerging Stack
©2020 OrionX.net
BlockchainParticipation
Traceability
Smart Contracts
Rights Mgmt
DistributedScale
Permissioned / Private
Smart ContractsStored Procedures
Consensus Algorithms: Proof of *, Graph
Layer-2 Technologies: Off chain
Token: Equity, Utility
ACID à CAP, REST, Idempotent
Tokenless
Identity vs. Transparent AnonymityDirectory
DappsScale-out, P2P, Elastic Apps
TPM à Middleware / Messaging
Ledger: Transaction Blocks / GraphDatabase: SQL à NoSQL
DexchangeExchange
Decentralized / TrustlessCentralized
Premissionless / Public
Monolithic à Mulit-tier à Scale-out à Elastic à Serverless à Decentralized
23
©2020 OrionX.net
©2020 OrionX.net
24. @ShahinKhan
Contracts = Code
ª Disrupts legal contracts
ª Must be precise
– Translation from natural language
– Standards
ª Must be deterministic
– Code verification v. language-level enforcement
– State Machine v. Turing-Complete
– Limited set of transactions
ª Must be secure, immutable once on chain
– Validity prior to signature
– Code injection prior to commitment to chain
Smart Contracts
©2020 OrionX.net 24
Open Source
Smart
Contracts Event Triggered
On-chain or
Off-chain
Transactions
Stored in Chain
©2020 OrionX.net
26. @ShahinKhan@ShahinKhan
Call OrionX, of course, but regardless:
1. Get familiar, half a day
2. Track, few hours/quarter
3. Focus on cross-sections
4. Reflect on strategy and roadmap
5. Develop readiness criteria
6. Incorporate into your narrative
Take it seriously
What must you do now?
@ShahinKhan