3. “It is interesting to be writing these words at a time of complete dependence on the Internet – which only became generally known about 15 years ago – and wonder how we will be communicating with each other in another dozen years.”
“In national or global terms, the loss of the Internet would be a huge blow from which it would be very hard to rebuild.”
A Vision for 2012
John L. Peterson, 2008
4. “Computing is turning into a utility, and once again the economic equations that determine the way we work and live are being rewritten.”
“Thus, processing power has expanded far more rapidly than the capacity of communication networks.”
The Big Switch
Rewiring the World, From Edison to Google
Nicholas Carr, 2008
5.
From Wikipedia:
Web 2.0: “Web 2.0 is a term describing changing trends in the use of web technology and web design that aims to enhance creativity, secure information sharing, collaboration and functionality of the web. Web 2.0 concepts have led to the development and evolution of web-based communities and its hosted services, such as social networking sites, video sharing sites, wikis, blogs, and folksonomies (form of tagging).”
6. Work and Live Anywhere� at Any Time
7. Internet:
Worldwide Internet Access Point Capacity:
One new connection, OC-3, added to the Internet in FY06
Two OC-3s upgraded to OC-12s in FY07
Capacity: Oct 2005: 6287 Mbps; Oct 2006: 6436 Mbps; Oct 2007: 7234 Mbps
Peak period Internet traffic averaged 33% annual growth during the last two years
Inbound to the NIPRNET is 4 times the outbound volume
INBOUND: Oct 2005: 3007 Mbps Oct 2006: 4184 Mbps; Oct 2007: 5280 Mbps or 3 gigabits per second to 5 gigabits per second (33%/year increase)
OUTBOUND: Oct 2005: 807 Mbps Oct 2006: 1065 Mbps; Oct 2007: 1305 Mbps (27%/year increase)
CAPACITY is the total available throughput for Internet Traffic (combined Inbound and Outbound traffic)
Combined Inbound and Outbound traffic cannot exceed Capacity
DISA is always looking for ways to increase capacity
Capacity is expensive
Internet:
Worldwide Internet Access Point Capacity:
One new connection, OC-3, added to the Internet in FY06
Two OC-3s upgraded to OC-12s in FY07
Capacity: Oct 2005: 6287 Mbps; Oct 2006: 6436 Mbps; Oct 2007: 7234 Mbps
Peak period Internet traffic averaged 33% annual growth during the last two years
Inbound to the NIPRNET is 4 times the outbound volume
INBOUND: Oct 2005: 3007 Mbps Oct 2006: 4184 Mbps; Oct 2007: 5280 Mbps or 3 gigabits per second to 5 gigabits per second (33%/year increase)
OUTBOUND: Oct 2005: 807 Mbps Oct 2006: 1065 Mbps; Oct 2007: 1305 Mbps (27%/year increase)
CAPACITY is the total available throughput for Internet Traffic (combined Inbound and Outbound traffic)
Combined Inbound and Outbound traffic cannot exceed Capacity
DISA is always looking for ways to increase capacity
Capacity is expensive
8. Congruent and Converging �Forces…that Compete! If you accept…
There is an unquenchable thirst for collaboration and sharing
We can work anywhere at any time – highly mobile workforce
You can live wherever you are – at home, at work, traveling
9. Continuously Learning
10. Web 2.0 and Beyond
11. Initiatives Capacity on Demand
Acquire a service – pay only for what we use
Rapid Access Computing Environment (RACE)
Sharing resources in a secure and scalable manner
Federated Development and Certification Environment (FDCE)
Collaborative software development, testing, certification, and re-use
FORGE.MIL
On-demand development and testing FDCE
Collaborative software development and re-use
Shared process with communities of interest
Collaborative planning/ execution of testing
There are three major components of the GIG FDCE infrastructure:
Collaborative Software Development: Enables DoD-wide open source software development, distribution and information exchange by adopting the process and tools used by the Internet’s open source development community. This capability supports the shared development and reuse of software with government purpose rights or intellectual property rights assigned to the government. This FDCE service will resemble the sourceforge.net and the apache.org services that support the open source community on the internet, but will be used to support open and community source projects within the DoD and our industrial base. In addition to supporting open source development, these tools will be offered for use within specific programs or organizations to provide an extremely cost-effective and robust capability to support their own development needs.
GIG Test and Certification: Building on the NECC FDCE, Provides a tailorable system engineering process supported by automated workflow and system testing. The system certification process establishes a common, standards-based approach to help protect the GIG from potentially harmful systems while enabling the rapid evolution of our IT systems. In addition to supporting software and systems, the FDCE will provide SOA service evaluation and certification process integrated with the NCES SOA Foundation registry to enable GIG SOA governance. In addition this FDCE component enables the linkage between services, the systems used to provide them and software component that can be used to consume them, thus improving the ability of GIG community to find and reuse the software, systems, and services necessary to perform their missions.
Cloud Computing: As defined by Gartner, cloud computing is a style of computing where massively scalable IT-enabled capabilities are delivered 'as a service' to external customers using Internet technologies. This leads to the industrialization of IT and will alter the way many organizations deliver business and mission services that are enabled by IT. The FDCE will not only use cloud computing to deliver its services, the FDCE will provide computing clouds for others to use in the development, testing, and delivery of their own services.
Rapid Access Computing:
Sharing accessible virtual resources
in a secure and scalable manner
“Cloud computing”
Accessibility for government personnel
and industry partners
Encourages standard operating
environmentFDCE
Collaborative software development and re-use
Shared process with communities of interest
Collaborative planning/ execution of testing
There are three major components of the GIG FDCE infrastructure:
Collaborative Software Development: Enables DoD-wide open source software development, distribution and information exchange by adopting the process and tools used by the Internet’s open source development community. This capability supports the shared development and reuse of software with government purpose rights or intellectual property rights assigned to the government. This FDCE service will resemble the sourceforge.net and the apache.org services that support the open source community on the internet, but will be used to support open and community source projects within the DoD and our industrial base. In addition to supporting open source development, these tools will be offered for use within specific programs or organizations to provide an extremely cost-effective and robust capability to support their own development needs.
GIG Test and Certification: Building on the NECC FDCE, Provides a tailorable system engineering process supported by automated workflow and system testing. The system certification process establishes a common, standards-based approach to help protect the GIG from potentially harmful systems while enabling the rapid evolution of our IT systems. In addition to supporting software and systems, the FDCE will provide SOA service evaluation and certification process integrated with the NCES SOA Foundation registry to enable GIG SOA governance. In addition this FDCE component enables the linkage between services, the systems used to provide them and software component that can be used to consume them, thus improving the ability of GIG community to find and reuse the software, systems, and services necessary to perform their missions.
Cloud Computing: As defined by Gartner, cloud computing is a style of computing where massively scalable IT-enabled capabilities are delivered 'as a service' to external customers using Internet technologies. This leads to the industrialization of IT and will alter the way many organizations deliver business and mission services that are enabled by IT. The FDCE will not only use cloud computing to deliver its services, the FDCE will provide computing clouds for others to use in the development, testing, and delivery of their own services.
Rapid Access Computing:
Sharing accessible virtual resources
in a secure and scalable manner
“Cloud computing”
Accessibility for government personnel
and industry partners
Encourages standard operating
environment
12. Enterprise Services Definition
Common user
Cost to produce the service
Market demand for service (how else can users get the service)
Strategic intent of the service, that is, what behavior does the Department want and want to incentivize.
On the horizon
Enterprise e-mail
Identity
Single sign on
Social networking
Enterprise software execution
SaaS
13. Command and Control The goal – net-enabled command and control
Interoperable framework
Enterprise service based
Reusable software
Collaboratively built
Effects composed by the user
The future
NECC program is challenging
GCCS family of systems represents a large investment over time
14. Our Approach We want to achieve…
15. 15 The DISA Supply Chain
