|Moonv6 2006 Whitepaper||UNH-IOL||
During the July 2006 test set, protocol-specific test plans were executed at both the UNH-IOL and the JITC Ft. Huachuca sites. IPv6 Information Assurance vulnerabilities assessment identified vulnerabilities in individual devices and within networks that are representative of operational DoD systems. Testing involved network applications including Network Time Protocol (NTP), DoD IPv6 Information Assurance, IPSec, DNS, DHCP, Firewalls and Applications, Transition Mechanisms and Dual-Stack Routing.
|White Papers||July 20, 2007|
|Moonv6 June 2007 Whitepaper||UNH-IOL||
The testing documented in this paper took place in June 2007 and focused on end-to-end basic office application demonstrations including printing scenarios, NFS (Network File Share), web design tools, collaboration tools, and SHIM6(Site Multihoming By IPv6) in a multivendor environment.
|White Papers||September 13, 2007|
|Moonv6 PhaseI Whitepaper||UNH-IOL||
Phase I of Moonv6 demonstrated that current IPv6 networking technology is stable, resilient and ready for integration with today\'s Internet. The event was attended by more than thirty different organizations and confirmed several stable and interoperable implementations of IPv6, and proved that IPv6 is ready to be deployed on a global scale. Specific aspects of IPv6 included common network applications, base specifications, transition mechanisms, routing protocols, security and mobility.
|White Papers||November 3, 2003|
|Moonv6 PhaseII Whitepaper||UNH-IOL||
Phase II of the Moonv6 project established the largest native IPv6 network in the world. The second phase of the project was able to demonstrate high speed links, advanced routing functionality, firewalls, QoS, and other key features. More than two dozen organizations participated in Phase II, and testing was facilitated by engineers from nine separate sites.
|White Papers||July 5, 2004|
|MPLS World Congress 2004||MFA and EANTC||
This interoperability evaluation focused on the transport of differentiated services on a multi-vendor MPLS backbone supporting MPLS traffic engineering. The MPLS World Congress 2004 demonstrated differentiated services over MPLS and MPLS traffic engineering. Multi-vendor MPLS/BGP VPN\'s and Layer 2 Ethernet VPN\'s (Martini and VPLS) were configured to prove that services were traffic engineering-enabled and could process differentiated services.
|White Papers||February 23, 2004|
|MPLS World Congress 2005||Carsten Rossenhoevel, Michael Pergament, and Jonathan Morin||
The second MPLS World Congress interoperability event included 10 different companies and was hosted by the MPLS Forum and Frame Relay Alliance at the EANTC labs in Berlin, Germany. The demonstration, held at the MPLS World Congress in Paris, proved that MPLS Layer 2 Ethernet-based VPNs are ready for large scale deployment. Also demonstrated were minimal MPLS ping and traceroute implementations.
|White Papers||February 28, 2005|
|MPLS World Congress 2006||Jambi Ganbar, Jonathan Morin, Cartsen Rossenhoevel, and Gabriele Schrenk||
The MPLS World Congress 2006 interoperability event included 15 different companies and was hosted by the EANTC and UNH-IOL and was endorsed by the MPLS Forum and Frame Relay Alliance, held in Berlin, Germany. This event focused the convergence of both old and new MPLS services such as VPLS, BGP-VPNs, Layer 2 VPNs while still being guaranteed by Fast Reroute and MPLS Diff Serve. The event was especially successful in focusing on converged services as it included all classes of MPLS devices.
|White Papers||February 6, 2006|
|Neighbor Discovery State Machine for the Reachability State||Andrew Gadzik, Thomas Peterson, Chris Cavanaugh||
This state machine flow chart covers a summary of the rules specified in RFC 4861 Sections 7.2 and 7.3.
|Tutorials||July 2, 2013|
A series of networking tutorials focused on Ethernet technology.
|Tutorials||June 29, 2012|
|New & Expanded WiFi Test & Measurement Assures Performance at the Network Edge||Lincoln Lavoie||
In this presentation, Lincoln Lavoie, details new and expanded WiFi testing and measurement capabilities being offered at the lab. Robust testing and measurement is key to the continuous improvement of broadband services, and WiFi performance has become critical to that equation. This is a webinar available on our YouTube page.
|Tutorials||March 7, 2018|
|NIST TN1337: Characterization of Clocks and Oscillators||D.B. Sullivan, D.W. Allan, DA. Howe, F.L. Walls||
This is a collection of published papers assembled as a reference for those involved in characterizing and specifying high-performance clocks and oscillators. It is an interim replacement for NBS Monograph 140, Time and Frequency: Theory and Fundamentals, an older volume of papers edited by Byron E. Blair. This current volume includes tutorial papers, papers on standards and definitions, and a collection of papers detailing specific measurement and analysis techniques. The discussion in the introduction to the volume provides a guide to the content of the papers, and tables and graphs provide further help in organizing methods described in the papers
|External Links||June 11, 2016|
|NVMe and NVMe-oF Plugfest Webinar 9||Kerry Munson & David Woolf||
Join the UNH-IOL as we walk thru which tests are mandatory for Plugfest #9 based on testing from our previous Plugfest (#8). We will review for both NVMe drives and NVMe-oF targets. In addition, we will walk thru the new tests that have been added for NVMe v1.3 features.
|Tutorials||May 11, 2018|
|NVMe Plugfest Webinar||Kerry Munson & David Woolf||
In this webinar Kerry Munson & David Woolf, UNH-IOL, will walk thru new test areas and requirements related to NVMe-MI and NVMe-OF. We will also have a walkthrough on IOL INTERACT including recent updates. This will help attendees prepare for the Plugfest held on Oct. 30-Nov. 2, 2017.
|Tutorials||September 27, 2017|
|octoScope Equipment: Performance & QoE Testing for Wireless Technology||
Take a video tour of our wireless testing here at the lab with our state of the art octoScope Test Bed. Our wireless testing focuses on performance and quality of experience for the 802.11 WiFi technologies. Our octoScope testbed includes two 26” octoboxes, and one 38” octoBox with controllable turntable. It can also be configured for video over Wi-Fi testing, mesh testing (self-forming, self-healing functions of a mesh), high speed roaming and other wireless tests.
|External Links||December 12, 2019|
The OPEN (One-Pair Ether-Net) Alliance is designed to encourage wide scale adoption of Ethernet-based, single pair unshielded networks as the standard in automotive applications. The jointly developed OPEN Alliance SIG (Special Interest Group) will address industry requirements for improving in-vehicle safety, comfort, and infotainment, while significantly reducing network complexity and cabling costs.
|External Links||January 2, 2013|
|OSRM January 2004||Chris Volpe, Ichiro Inoue, Kaori Shimizu, Yumiko Kawashima, and Tom Dimicelli||
The first OSRM event, held at the University of New Hampshire InterOperability Laboratory (UNH-IOL), provided an aggressive carrier-class environment for GMPLS testing including several GMPLS interworking scenarios that had not been achieved in previous multi-vendor test settings. The testing, conducted by the UNH-IOL OSRM test group, involved a variety of test cases that focused on stability testing, control channel fault handling and data channel failure recovery.
|White Papers||January 26, 2004|
|OSRM Test Event 2004||Henry He, Chris Volpe, Takumi Ohba, Kaori Shimizu, Yumiko Kawashima, and Tom DiMicelli||
The second UNH-IOL OSRM test event included seven different companies and was designed in collaboration with Nippon Telegraph and Telephone Corp. (NTT) and the participants to validate and prove GMPLS functionality in a multi-vendor network. This collaboration generated an exceptionally realistic and demanding test suite in line with service providers\' operational demands, rather than simple conformance or interoperability scenarios.
|White Papers||September 27, 2004|
|OSRM Test Event 2005||Henry He, Takumi Ohba, Kaori Shimizu, Chris Volpe, John Allen, Ankur Chadda, and Scott Larsonk||
The third UNH-IOL OSRM test event was designed with a new focus on the failure recovery mechanisms of a GMPLS network. The event provided a vendor-neutral setting that gave participants an opportunity to assess interoperability and valuable feedback to assist them in refining their implementations. Testing included interconnected products demonstrating the functionality of various aspects of explicit route and label control to set up GMPLS traffic engineered most suitable path, control channel failure recovery, data plane failure recovery by multi-layer traffic engineering, end-to-end protection in signaling, and the ability of GMPLS to manage diverse networks with increased scalability.
|White Papers||July 25, 2005|
|Overview of Internet Protocol (Part 2)||Ben Schultz||
An overview of the workings of the Internet Protocol (Part 2) including specific IPv4 routing protocols.
|Tutorials||June 4, 2001|
|Overview of the Internet Protocol||Ben Schultz||
An overview of the workings of the Internet Protocol.
|Tutorials||June 4, 2001|
|Overview of UNH EXS for Programmers||Robert Russell, Patrick MacArthur||
The Extended Sockets API (ES-API) is a specification published by the Open Group that defines extensions to the traditional socket API in order to provide asynchronous I/O and also memory registration for Remote Direct Memory Access (RDMA). These two major new features enable programmers to take advantage of today's multi-core processors and RDMA network hardware, such as InfiniBand, iWARP and RoCE interfaces, in a convenient yet efficient manner.
|Tutorials||April 15, 2012|
Step by step overview on the PCIe Express.
|Tutorials||September 23, 2014|
|Performance Evaluation of TCP over IEEE 802.11 WLANs||Sachin Goel||
Transmission Control Protocol (TCP) is a communication protocol that is used to provide reliable data delivery between hosts. As TCP is the most highly used transport-layer protocol, many have worked on addressing the issue of performance. Performance issues have been studied in various environments, especially when using 802.11 Wireless Local Area Networks (WLANs). Wireless networks are prone to a higher number of packets loss and corruption. 802.11 WLANs have an equivalently fast acknowledgement mechanism as TCP to ensure reliability of traffic over it. This duplication of functionality between TCP and 802.11 WLAN creates unexpected behaviors that can result in high costs in terms of overall performance. A significant amount of analytical and simulation work has been done in the past to study the behaviour of TCP over 802.11 WLANs. The main contribution of this work is the analysis of TCP interaction in an 802.11 WLAN topology by using real commercial-grade equipments. A testing methodology is designed to do the quantitative performance evaluation in a network topology consisted of wired as well as a wireless connection. The methodology contains test scenarios with different configurable settings on an Access Point (AP) and various controlled impairments in the network topology such as latency, packet drop, noise interference, etc. The performance of TCP is measured in terms of the throughput. This work provides a comprehensive set of experiments to study the behaviour of TCP over 802.11 WLANs. The results can provide insight into the performance cost associated with TCP traffic on 802.11 WLANs under different network environments and configurations on the AP. The results of this work thus have a value to equipment manufacturers and network operators.
|Theses||September 1, 2006|
|PoE Technical FAQ||
|External Links||September 23, 2014|
|PPP Design, Implementation, and Debugging, Second Edition||James Carlson||
From the back cover: "PPP Design, Implementation, and Debugging, Second Edition, is a complete and convenient resrouce for netowrk system designers and administrators. This book contains everything you need to know to work with the Point-to-Point Protocol (PPP), one of the most important Internet protocols in use today. Inside you'll find clear explanations of the underlying concepts, practical implementation information, and valuable debugging techniques to keep your PPP connections running smoothly, efficiently, and uninterrupted."
|Recommended Textbooks||June 26, 2012|