Reddix Group - Quantum AI - Presentation

Quantum Ar tificial Intelligence - Architecture
Presented by The Reddix Group, LLC

Mission Statement:
Creates an Enterprise Common
Operational Picture, that produces
Enhanced Situational Awareness!
DoD Quantum Artificial Intelligence (Q-AI)
IN NEAR REAL - TIME “FUTURE STATE”

Potential National Security Threats - Part 1
DISASTER
SCENARIOS
CRIME
Example : product piracy, cyber attacks
AMENDMENTS TO THE LAW
Example : GDPR (2018)
INFRASTRUCTURE ISSUES
Example : power outages or network crashes
NATURAL DISASTERS
Example : earthquakes, floods
RESOURCE CONSTRAINTS
Example : loss of suppliers
LOSSES DUE TO ACCIDENTS
Examples : fire, machinery issues
HEALTH-RELATED ISSUES
Example : Flu season or any pandemics
SOCIAL & POLITICAL UNREST
Example : strikes, political upheavals, attacks

Potential National Security Threats - Part 2
Storm Damage Theft or Robbery Power Outages Viral Outbreak Technical Failure
Natural Disaster Cyber Attack Human Error Fire Accident Water Shortage
Texas Power Outages
Jackson, MS Water Shortage
Colonial Pipeline Ransomware Attack
Space
Weaponization

The Aim of Q-AI
Learning - improvements in the
deep learning training process!
Decision Problems - based on
Hamiltonian time evolution can
solve problems faster than
random walks!
Search – most search algorithms
are designed for classical
computing
Game Theory – can overcome
critical problems in quantum
communications and
implementations of Q-AI!
Open-Source modeling
and training frameworks
Substantial and skilled
developer ecosystem
Less error-prone and
more powerful computing
systems
Compelling applications
that outperforms classical
computing
Critical Milestones
Enhanced Situational Awareness (ESA)

Q-AI Plan of Attack
ALGORITHM PROCESS PRIORITIZATION IN-MEMORY - IT INTEGRATION MANAGEMENT
Risk
Assessment
DoD Impact
Analysis
Program
Assessment
Program
Design
Strategy
Design
Implementation
Program
Review
Resilience program
management
Processes and activities
Crisis teams
Business resumption
High availability
Recovery
Streamline IT
infrastructure
High availability
design
High availability
servers
Data replication
Database and software
design
Maturity model
Model ROI
Create program
roadmap
Outage impact
Risks,
vulnerabilities,
threats
1. People
2. Processes
3. Plans
4. Strategies
5. Networks
6. Platforms
7. Facilities
Awareness, review, change management, regular briefings
Current capabilities Expected recovery time

Quantum
Artificial
Intelligence
Management
Q-AI Data Readiness
Labeling data is a significant expense and bottleneck for Machine Learning
and Natural Language Processing (NLP) development. Current approaches,
such as manually labeling data through crowdsourcing and internal labeling
efforts, carry significant drawbacks including high cost, extensive time and
resource consumption, and low consistency and accuracy. Jaxon is a semi-
supervised training platform that amplifies a small number of human-
provided labels into full-scale training datasets and high-quality models for
text-oriented machine learning applications.
Jaxon brings together several open and proprietary techniques for effective
sparse-data training. These techniques incorporate knowledge from large
unlabeled corpora, human domain experts, and previously-trained models
and machine learning assets in order to drastically reduce the demand for
human labeling and annotation while improving model quality.

Quantum
Artificial
Intelligence
Management
Q-AI Application
Development
With the growth of cloud computing, more ingenious
cyberthreats, and the need for fast and easily changeable
applications, agencies are realizing that the traditional
method of application development does not serve their
needs. For more agencies, the answer is microservices. This
application development approach breaks applications into
smaller components for development.

Quantum
Artificial
Intelligence
Management
Q-AI Testing and
Evaluation
Testing & Evaluation (T&E) – There are so many things that
can go wrong during data transportation: Data can be
corrupted, hit bottlenecks causing latency, or data sources
may conflict generating duplicate or incorrect data,
eliminating duplicates and incompatible data types, to
obfuscate sensitive information while not missing critical data.

Preparing Quantum Datasets for Q-AI
Preparing
Q-AI Datasets
1
2
3
4
5
Processes, recovery
times, resource
requirements
Threat analysis,
risk exposure,
threat scenarios
Continuity, strategy, key
resources, alternatives,
service methods, and
recovery methods
Procedures
Plan validation
Convert Q-AI data to the quantum dataset
Q-AI data can be represented as a multi-
dimensional array of numbers which is called as
quantum tensors. TensorFlow processes these
tensors in order to represent, create a dataset for
further use.
01
Choose Q-AI neural network models
Based on the Q-AI data structure, Q-AI
neural network models are selected. The
aim is to perform Q-AI processing in order
to extract information hidden in an
entangled state.
02
Sample or Average
Measurement of Q-AI states extract
classical information in the form of
samples from the classical
distribution. The values are
obtained from the Q-AI state itself.
03
Evaluate a classical neural networks model
Since Q-AI data is now converted into classical
data, deep learning techniques are used to learn
the correlation between data.
04
Exercising & Testing
Its main purpose is to validate the
Q-AI continuity strategy, activities,
assumptions regarding usefulness
and security levels.
05
Continued Q-AI Maintenance Plan
This phase maintain the Q-AI
algorithms in a constant ready-
state. The maintenance process of
a Q-AI ecosystem is constant and
dynamic.
06

Q-AI Application Development Framework
LEARN / OPTIMIZE
UPDATE
Q-AI before & after an events
AGGREGATE / LABEL / OPTIMIZATION
UTILIZE
Train the Q-AI in a crisis or exercise
EXPLORE / TRANSFORM / REALTIME
STRUCTURE
Decide on how to structure the Q-AI
MOVE / STORE / COLLECT
Q-AI PLAN
Build ML template & get started
Hierarchy of Needs KEY TO SUCCESS
Q-AI

GigaSpaces’s InsightEdge was designed to help enterprises seamlessly accelerate and scale their
mission
critical, time-sensitive applications and services. This distributed in-memory software platform
can ingest, process and store large volumes of any data type, and ensures low latency performance
dynamic scale across all environments. Customers leverage InsightEdge to power open banking
initiatives, real time fraud and risk analysis, customer 360, analytics and BI on fresh data and more.
The InsightEdge platform integrates to siloed operational data stores and to the enterprise’s systems
of record with a single click (no-code connect), aggregating data in a low-latency data fabric. The
dynamically scaling Data Integration Hub offloads API access from the enterprise’s data stores (on-
premise and cloud) and delivers rapid application response times to internal and external customers
no matter the load while ensuring always-on services. The ability to collocate business logic with data
in memory and perform dynamic server-side aggregations, reduces the movement of data to the client
and delivers extreme performance.
Q-AI: IN-MEMORY SOLUTION

Q-AI GigaSpaces: Orchestration
1
3

Q-AI GigaSpaces: Data Flows
1
4

Q-AI GigaSpaces: Cloud & Datacenter Integration

Q-AI GigaSpaces: How To Run Microservices

CASE
STUDY:
• Railway corporation runs predictive
analytics on its fleet of trains in real-time
BUSINESS CHALLENGE:
• Trains location heatmap
• Correlating fuel consumption, temperature,
weather and road conditions
• Bad weather alerts filter
• Real-time enriched data with external data
TECHNICAL CHALLENGE:
• Improve train performance and reduce downtime with
real-time visibility of 10Ks trains
• Reduce maintenance costs by up to 75% per mile
• Faster time to market of new online services
RESULTS:
TRANSPORTATION/
IOT
Predictive Maintenance
Reduce maintenance costs by up to 75% per mile
Q-AI GigaSpaces: Example

Reddix Group - Quantum AI - Presentation

Q-AI Build Cycle
ASSESSMENTS
Development & implementation of test
scenarios, staff training, Gap analysis
ANALYSIS
Identify, Risk assessment,
Business impact analysis
DEVELOP
Strategy review &
implementation, Plan
development
INTEGRATION
Coordination with
external organizations &
companies
MAINTENANCE
Change management,
Scheduling, Financial audit
management
PROJECT STARTS
Project management & awareness,
leadership, basic development

Q-AI Model Development Flow
ANALYZE
DESIGN
SOLUTIONS
IMPLEMENT
TEST AND
ACCEPT
Identify potential threats or
risks, impacted business
processes, warning and
communication process
Design or define addition
solutions, strategy,
documentation processes and
supplier dependencies
Initiate response checklist and
relocation strategies of critical
processes in the business
disruption.
Recovery time objectives,
test critical processes,
monitor primary and
alternate facility details.
Update key details and
associated processes as
deficiencies & inaccuracies
are identified.
MAINTAIN

DEVELOP DATA INPUTS
Determine the selection of
alternative Data Strategies available
for mitigate loss (testing scenarios).
02
03 05
01
04
IDENTIFY & ANALYZE
Identifies all significant AI
roles of risks, resources &
all critical processes.
IMPLEMENTATION PLANS
Here you can develop plans which
includes role allocation &
responsibilities in case of crisis.
DEFINE OBJECTIVES
What are the AI objectives,
defined value & cybersecurity
requirements.
BUILD TRAINING MODEL
Testing helps to create
awareness for execution in the
event of any disaster or risk.
06
ESTABLISH BENCHMARKS
It helps to create awareness among
managers, employees and partners
in company.
Test & Evaluation

Q-AI as a Component of Resilience Management
CRISIS MANAGEMENT
EMERGENCY PREPAREDNESS
Impact
Strategy
Plan
Training + Test
Emergency
Measures
Emergency
Operations
Resume
Normal
Operations
Q-AI

Q-AI Cyber Risk Analysis Steps
01
IDENTIFY RISKS
• Internal and external risks
• Direct and indirect risks
• Risks that can and cannot
be managed
02
EVALUATE RISKS
• Assess risk probability
• Assess impact
• Assigning and prioritizing risk
03
DESIGN POSSIBLE RISK SCENARIO
• IT failure and network collapse
• Building damage
• Delivery bottlenecks
• Loss of employees
04
SELECT RISK STRATEGIES
• Acceptance
• Transfer
• Avoidance
• Reduction

Strategic Q-AI Framework
Q-AI STRESS
TESTING
Define
Identify
Assess
impact
Design
changes
Execute
changes
Q-AI
CONTINUITY
MGMT.
Test &
maintain
Project
initiation
Identify
& impact
Design
measure
Implement
MODIFIES & CREATE VALUE SUSTAINS & PRESERVES VALUE

Reddix Group - Quantum AI - Presentation

Related slideshows

More Related Content

Reddix Group - Quantum AI - Presentation

Editor's Notes