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Hej på er, Som utlovat kommer här nu avsnittet om IPv6! Men eftersom det finns så mycket kul att säga om det och vi ju för i år har ett nytt format på programmet - så kommer det få bli en del 2 också. Del 1, handlar om IPv6 generellt, i del 2 kommer vi leda er igenom att sätta upp er första labbmiljö för IPv6... Nytt från och med det här avsnittet är alltså att vi nu kommer släppa ett nytt avsnitt varje vecka, men de är och andra sidan då bara ca 30 minuter långa per avsnitt. Även om det blev drygt 40 den här gången :) Glöm inte att du nu kan maila studion på thenerdherd@live.com om du har programidéer, frågor, kommentarer eller påståenden. Nästa avsnitt #27 är redan inspelat och det är premiären för våra Q m, TrueSec, Johan Persson, SYSTeam, Michael Anderberg, n tverk

BLOCKBUSTER Total Access click to activate coupon for $10 off your first month. Free Information on EVault 1-866-928-0735 Opera Web Developers MAMA Opportunities in Recession HP Touchscreen, Android Phone SDR News is a Daily (M-F) Technology Podcast with Tech News Highlights from Slashdot, Digg and Reddit Click Here to Sign Up for the SDR Newsletter Prefer a Direct Download ? (mp3) Download today s show. SDR News Links If a news item has disappeared from the Del.icio.us list above, try the full list here. Thumbnail Views: Via Thumblicio.us SEARCH ANY STORY YOU HEAR ON THE PODCAST Opportunities in Recession by Andrew McCaskey There s an undercurrent that this is the best time ever to start a business. EDN Magazine shows how a nimble NEC America chip design unit is shifting their design efforts from consumer and entertainment devices into intelligent controllers for solar panels and networked load shedding and shaping wireless devices. With energy prices finally providing real incentives to make the watt-hour meter an intelligent switch for IP aware nodes within the home, there are engineering challenges and opportunities to spare. Paul Graham points out that Apple and Microsoft were both founded in a deep recession, and that tech - unlike restaurants, car lots, and real-estate tends to move independent of the economy. Anything that allows people to work and save money. And if you are cheap enough, you will have the inside advantage. Paul reminds us that The cheaper your company is to operate, the harder it is to kill. Fortunately it has gotten very cheap to run a startup, and a recession will if anything make it cheaper still. There are lots of coders with talent. There are coffee shops with free WiFi. And if the founders have the right idea, business plan, and discipline, all the elements for a 21st Century startup are in place. Add in some Walt Ribeiro enthusiasm, (Congrats on the Revision 3 show, Walt !) and you are on your way. Restaurants ? Maybe not such a good time. Used Cars ? Absolutely. New Car Dealership ? Not so much. ShareThis Last Updated ( Thursday, 16 October 2008 20:19 ) Contact Us CES 2008 Coverage for Tech Podcast Network http://www.youtube.com/watch?v=cFB7RJSoQCI Kite Powered Cargo Ship Watch Today s Video Episode Click to view videos submitted or recommended by other SDR podcast listeners. . . If you find a YouTube video that pertains to one of our news items, or have produced an item that would be of interest to SDR listeners, please send us the link slashdotreviewgmail.com Save $10 on any order of $50 or more at GoDaddy.com! Be sure to sign up for our upcoming roundtable. We will be using GoToMeeting. Also, be sure to check out GoToMeeting. Why? Because you can hold meetings right over the Net from anywhere. Plus, you can hold all the meetings you want for one flat rate. To get your free 30-day trial , visit www.gotomeeting.com/techroundtable. Take 10% off any order at GoDaddy.com! Code SLASH Take $5 off any $30 order at GoDaddy.com! Code SLASH2 .com Domains $6.95 at GoDaddy.com! Code SLASH3 More blogs about SlashdotReview Slashdot Review by Email - Sign up here: Enter your Email Powered by FeedBlitz

BLOCKBUSTER Total Access click to activate coupon for $10 off your first month. Free Information on EVault 1-866-928-0735 Unused ipv4 Addresses Cisco Telepresence Rooms Great Lakes Wind Turbines SDR News is a Daily (M-F) Technology Podcast with Tech News Highlights from Slashdot, Digg and Reddit Click Here to Sign Up for the SDR Newsletter Prefer a Direct Download ? (mp3) Download today s show. SDR News Links If a news item has disappeared from the Del.icio.us list above, try the full list here. Thumbnail Views: Via Thumblicio.us SEARCH ANY STORY YOU HEAR ON THE PODCAST DriveAssist Can be Successful by Andrew McCaskey How to Make DriveAssist Work PDF Print E-mail Written by Andrew McCaskey Wednesday, 15 October 2008 15:31 Sometimes the best of ideas don t have much of a chance in the real world. This great idea that is going to fail unless carriers do one thing. That s the case with the system developed by Aegis Mobility. DriveAssist will read the status of your cellphone, determine that you are present in a a vehicle in motion, and then put your phone into a hold all calls mode. When you return to a halt or are no longer moving above a certain speed, then the phone call will go through. Every rational factor points to this system s favor: The effect on concentration and vehicle control, numerous studies equating driving impairment on the same level as high blood alcohol, teenage driver deaths while talking and texting, and just plain annoyance of drivers talking on the cellphone when they should be driving. It s a factor in at least 10% of the crashes on the roads where over 41,000 people die each year. Every parent of a teenager wants this service, and we all want the other drivers on the road to subscribe. We just don t particularly want it ourselves. Thomas Edison was granted his first patent (#90,646), for an electric voting machine. The purpose of the electric vote recorder was to speed deliberation and legislation. The problem is, legislators did not want their deliberation and voting sped up. And, most particularly, they did not want to have their votes on every issue tallied up for the world to see, or indicators as far as who had voted and who was taking measure of the direction of the political winds. The only way that DriveAssist is going to fly is through market forces. If we assume that today s insurance rates capture the inherent risk in the system with free-range wireless use in moving automobiles, the fastest way to gain the benefits will be a direct reduction in insurance rates for those in the program. If you can prove that every wireless phone used by your family of teenage and adult drivers is locked to DriveAssist. It s a sure moneymaker for the wireless service providers, as well - if they keep it to say $5 a month to get a large uptake. Oh wait. They like for you to use up those minutes on the freeway with idle chatter. Nevermind. I meant insurance carriers - not wireless carriers. Contact Us CES 2008 Coverage for Tech Podcast Network Phonographantasmascope Watch Today s Video Episode Click to view videos submitted or recommended by other SDR podcast listeners. . . If you find a YouTube video that pertains to one of our news items, or have produced an item that would be of interest to SDR listeners, please send us the link slashdotreviewgmail.com Save $10 on any order of $50 or more at GoDaddy.com! Be sure to sign up for our upcoming roundtable. We will be using GoToMeeting. Also, be sure to check out GoToMeeting. Why? Because you can hold meetings right over the Net from anywhere. Plus, you can hold all the meetings you want for one flat rate. To get your free 30-day trial , visit www.gotomeeting.com/techroundtable. Take 10% off any order at GoDaddy.com! Code SLASH Take $5 off any $30 order at GoDaddy.com! Code SLASH2 .com Domains $6.95 at GoDaddy.com! Code SLASH3 More blogs about SlashdotReview Slashdot Review by Email - Sign up here: Enter your Email Powered by FeedBlitz

Aujourd’hui, l’internet va bientôt atteindre les limites d’une technologie prévue à l’origine pour connecter quelques machines. Depuis 1993, un groupe travaille afin de mettre en place une nouvelle technologie flexible et innovante pour combler les failles et les défauts d’IPv4, le protocole réseau le plus utilisé aujourd’hui. * Les faiblesses d’IPv4 * Les évolutions proposées par IPv6 * La nécessité du changement * Qui propose IPv6 et commentAuthor: intellicore Tags: Internet IPv6 réseau Posted: 01 July 2008 Rating: 5.0 Votes: 1

The Internet address space available under the current protocol, IPv4, will run out real soon, 2011, and the only long term solution is to transition to IPv6 which has sufficient address capacity to give every grain of sand on the planet its own unique Internet address, or something like that. Only 16% of the total IPv4 address space remained unallocated in early 2008, this situation is critical for the future of the Internet economy because all new users connecting to the Internet, and all businesses that require IP addresses for their growth, will be affected by the change from the current status of ready availability of unallocated IPv4 addresses. Distributed by Tubemogul. Author: kenradio Keywords: ipv6 ipv4 ken rutkowski kenradio Added: June 10, 2008

The Internet address space available under the current protocol, IPv4, will run out real soon, 2011, and the only long term solution is to transition to IPv6 which has sufficient address capacity to give every grain of sand on the planet its own unique Internet address, or something like that. Only 16% of the total IPv4 address space remained unallocated in early 2008, this situation is critical for the future of the Internet economy because all new users connecting to the Internet, and all businesses that require IP addresses for their growth, will be affected by the change from the current status of ready availability of unallocated IPv4 addresses. Distributed by Tubemogul.

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Intro: Two weeks ago we gave an overview of IPv6. This week we take a look at some of the technical details for this protocol. Mike: Gordon, a couple of weeks ago we discussed Ipv6 - can you give us a quick review - what's the difference between IPv4 and IPv6? The most obvious distinguishing feature of IPv6 is its use of much larger addresses. The size of an address in IPv6 is 128 bits, which is four times the larger than an IPv4 address. A 32-bit address space allows for 232 or 4,294,967,296 possible addresses. A 128-bit address space allows for 2 28 or 340,282,366,920,938,463,463,374,607,431,768,211,456 (or 3.4x1038) possible addresses. In the late 1970s when the IPv4 address space was designed, it was unimaginable that it could be exhausted. However, due to changes in technology and an allocation practice that did not anticipate the recent explosion of hosts on the Internet, the IPv4 address space was consumed to the point that by 1992 it was clear a replacement would be necessary. With IPv6, it is even harder to conceive that the IPv6 address space will be consumed. Mike: It's not just to have more addresses though, is it? It is important to remember that the decision to make the IPv6 address 128 bits in length was not so that every square inch of the Earth could have 4.3x1020 addresses. Rather, the relatively large size of the IPv6 address is designed to be subdivided into hierarchical routing domains that reflect the topology of the modern-day Internet. The use of 128 bits allows for multiple levels of hierarchy and flexibility in designing hierarchical addressing and routing that is currently lacking on the IPv4-based Internet. Mike: Is there a specific RFC for IPv6? The IPv6 addressing architecture is described in RFC 2373. Mike: I know there is some basic terminology associated with IPv6. Can you describe Nodes and Interfaces as they apply to IPv6? A node is any device that implements IPv6. It can be a router, which is a device that forwards packets that aren't directed specifically to it, or a host, which is a node that doesn't forward packets. An interface is the connection to a transmission medium through which IPv6 packets are sent. Mike: How about some more IPv6 terminology - can you discuss Links, Neighbors, Link MTUs, and Link Layer Addresses? A link is the medium over which IPv6 is carried. Neighbors are nodes that are connected to the same link. A link maximum transmission unit (MTU) is the maximum packet size that can be carried over a given link medium, and is expressed in octets. A Link Layer address is the physical address of an interface, such as media access control (MAC) addresses for Ethernet links. Mike: Can you give a brief ouline in address syntax? IPv4 addresses are represented in dotted-decimal format. This 32-bit address is divided along 8-bit boundaries. Each set of 8 bits is converted to its decimal equivalent and separated by periods. For IPv6, the 128-bit address is divided along 16-bit boundaries, and each 16-bit block is converted to a 4-digit hexadecimal number and separated by colons. The resulting representation is called colon-hexadecimal. The following is an IPv6 address in binary form: 00100001110110100000000011010011000000000000000000101111001110110000001010101010000000001111111111111110001010001001110001011010 The 128-bit address is divided along 16-bit boundaries: 0010000111011010 0000000011010011 0000000000000000 0010111100111011 0000001010101010 0000000011111111 1111111000101000 1001110001011010 Each 16-bit block is converted to hexadecimal and delimited with colons. The result is: 21DA:00D3:0000:2F3B:02AA:00FF:FE28:9C5A IPv6 representation can be further simplified by removing the leading zeros within each 16-bit block. However, each block must have at least a single digit. With leading zero suppression, the address representation becomes: 21DA:D3:0:2F3B:2AA:FF:FE28:9C5A Mike: I know there are lost of zeros in IPv6 addresses - can you discribe zero compression notation? Some types of addresses contain long sequences of zeros. To further simplify the representation of IPv6 addresses, a contiguous sequence of 16-bit blocks set to 0 in the colon hexadecimal format can be compressed to â::â, known as double-colon. For example, the link-local address of FE80:0:0:0:2AA:FF:FE9A:4CA2 can be compressed to FE80::2AA:FF:FE9A:4CA2. The multicast address FF02:0:0:0:0:0:0:2 can be compressed to FF02::2. Zero compression can only be used to compress a single contiguous series of 16-bit blocks expressed in colon hexadecimal notation. You cannot use zero compression to include part of a 16-bit block. For example, you cannot express FF02:30:0:0:0:0:0:5 as FF02:3::5. The correct representation is FF02:30::5. To determine how many 0 bits are represented by the â::â, you can count the number of blocks in the compressed address, subtract this number from 8, and then multiply the result by 16. For example, in the address FF02::2, there are two blocks (the âFF02â block and the â2â block.) The number of bits expressed by the â::â is 96 (96 = (8 â 2)(16). Zero compression can only be used once in a given address. Otherwise, you could not determine the number of 0 bits represented by each instance of â::â. Mike: IPv4 addresses use subnet masks - do IPv6 addresses? No - a subnet mask is not used for IPv6. Something called prefix length notation is supported. The prefix is the part of the address that indicates the bits that have fixed values or are the bits of the network identifier. Prefixes for IPv6 subnet identifiers, routes, and address ranges are expressed in the same way as Classless Inter-Domain Routing (CIDR) notation for IPv4. An IPv6 prefix is written in address/prefix-length notation. For example, 21DA:D3::/48 is a route prefix and 21DA:D3:0:2F3B::/64 is a subnet prefix. Mike: I know there are three basic types of IPv6 addresses - can you give a brief description of each? 1. Unicast â packet sent to a particular interface A unicast address identifies a single interface within the scope of the type of unicast address. With the appropriate unicast routing topology, packets addressed to a unicast address are delivered to a single interface. To accommodate load-balancing systems, RFC 2373 allows for multiple interfaces to use the same address as long as they appear as a single interface to the IPv6 implementation on the host. 2. Multicast - packet sent to a set of interfaces, typically encompassing multiple nodes A multicast address identifies multiple interfaces. With the appropriate multicast routing topology, packets addressed to a multicast address are delivered to all interfaces that are identified by the address. 3. Anycast â while identifying multiple interfaces (and typically multiple nodes) is sent only to the interface that is determined to be ânearestâ to the sender. An anycast address identifies multiple interfaces. With the appropriate routing topology, packets addressed to an anycast address are delivered to a single interface, the nearest interface that is identified by the address. The ânearestâ interface is defined as being closest in terms of routing distance. A multicast address is used for one-to-many communication, with delivery to multiple interfaces. An anycast address is used for one-to-one-of-many communication, with delivery to a single interface. In all cases, IPv6 addresses identify interfaces, not nodes. A node is identified by any unicast address assigned to one of its interfaces. Mike: What about broadcasting? RFC 2373 does not define a broadcast address. All types of IPv4 broadcast addressing are performed in IPv6 using multicast addresses. For example, the subnet and limited broadcast addresses from IPv4 are replaced with the link-local scope all-nodes multicast address of FF02::1. Mike: What about special addresses? The following are special IPv6 addresses: Unspecified Address The unspecified address (0:0:0:0:0:0:0:0 or ::) is only used to indicate the absence of an address. It is equivalent to the IPv4 unspecified address of 0.0.0.0. The unspecified address is typically used as a source address for packets attempting to verify the uniqueness of a tentative address. The unspecified address is never assigned to an interface or used as a destination address. Loopback Address The loopback address (0:0:0:0:0:0:0:1 or ::1) is used to identify a loopback interface, enabling a node to send packets to itself. It is equivalent to the IPv4 loopback address of 127.0.0.1. Packets addressed to the loopback address must never be sent on a link or forwarded by an IPv6 router. Mike: How is DNS handled? Enhancements to the Domain Name System (DNS) for IPv6 are described in RFC 1886 and consist of the following new elements: Host address (AAAA) resource record IP6.ARPA domain for reverse queries Note: According to RFC 3152, Internet Engineering Task Force (IETF) consensus has been reached that the IP6.ARPA domain be used, instead of IP6.INT as defined in RFC 1886. The IP6.ARPA domain is the domain used by IPv6 for Windows Server 2003. The Host Address (AAAA) Resource Record: A new DNS resource record type, AAAA (called âquad Aâ), is used for resolving a fully qualified domain name to an IPv6 address. It is comparable to the host address (A) resource record used with IPv4. The resource record type is named AAAA (Type value of 28) because 128-bit IPv6 addresses are four times as large as 32-bit IPv4 addresses. The following is an example of a AAAA resource record: host1.microsoft.com IN AAAA FEC0::2AA:FF:FE3F:2A1C A host must specify either a AAAA query or a general query for a specific host name in order to receive IPv6 address resolution data in the DNS query answer sections. The IP6.ARPA Domain The IP6.ARPA domain has been created for IPv6 reverse queries. Also called pointer queries, reverse queries determine a host name based on the IP address. To create the namespace for reverse queries, each hexadecimal digit in the fully expressed 32-digit IPv6 address becomes a separate level in inverse order in the reverse domain hierarchy. For example, the reverse lookup domain name for the address FEC0::2AA:FF:FE3F:2A1C (fully expressed as FEC0:0000:0000:0000:02AA: 00FF:FE3F:2A1C) is: C.1.A.2.F.3.E.F.F.F.0.0.A.A.2.0.0.0.0.0.0.0.0.0.0.0.0.0.0.C.E.F.IP6.ARPA. The DNS support described in RFC 1886 represents a simple way to both map host names to IPv6 addresses and provide reverse name resolution. Mike: Can you discuss transition from IPv4 to IPv6? Mechanisms for transitioning from IPv4 to IPv6 are defined in RFC 1933. The primary goal in the transition process is a successful coexistence of the two protocol versions until such time as IPv4 can be retired if, indeed, it's ever completely decommissioned. Transition plans fall into two primary categories: dual-stack implementation, and IPv6 over IPv4 tunneling. More Info Mechanisms for transitioning from IPv4 to IPv6 are defined in RFC 1933. There are two primary methods. Dual Stack Implementation The simplest method for providing IPv6 functionality allows the two IP versions to be implemented as a dual stack on each node. Nodes using the dual stack can communicate via either stack. While dual-stack nodes can use IPv6 and IPv4 addresses that are related to each other, this isn't a requirement of the implementation, so the two addresses can be totally disparate. These nodes also can perform tunneling of IPv6 over IPv4. Because each stack is fully functional, the nodes can configure their IPv6 addresses via stateless autoconfiguration or DHCP for IPv6, while configuring their IPv4 addresses via any of the current configuration methods. IPv6 Over IPv4 Tunneling The second method for implementing IPv6 in an IPv4 environment is by tunneling IPv6 packets within IPv4 packets. These nodes can map an IPv4 address into an IPv4-compatible IPv6 address, preceding the IPv4 address with a 96-bit 0:0:0:0:0:0 prefix. Routers on a network don't need to immediately be IPv6-enabled if this approach is used, but Domain Name System (DNS) servers on a mixed-version network must be capable of supporting both versions of the protocol. To help achieve this goal, a new record type, AAAA, has been defined for IPv6 addresses. Because Windows 2000 DNS servers implement this record type as well as the IPv4 A record, IPv6 can be easily implemented in a Windows 2000 environment. Mike: we've only touched on some of the IPv6 details - where can people get more information? I'm hoping to run a session at our summer conference July 28 - 31 in Austin, TX - we've currently got faculty fellowships available to cover the cost of the conference. See www.nctt.org for details. References - Content for this academic podcast from Microsoft sources: All Linked Documents at Microsoft Internet Protocol Version 6 (note: excellent and free online resources): http://technet.microsoft.com/en-us/network/bb530961.aspx Understanding IPv6, Joseph Davies, Microsoft Press, 2002 ISBN: 0-7356-1245-5 Sample Chapter at: http://www.microsoft.com/mspress/books/sampchap/4883.asp#SampleChapter

Intro: The world has changed significantly since the Internet was first created. IPv6 gives over 4.3x1020 unique addresses for every square inch on the planet, and is going to allow us to do things we've only dreamed of in the past. In this podcast we give an overview of IPv6. Mike: Gordon, before we get into the technology, can you give us an update on IPv6 history in the United States? Sure Mike, this comes from a 1-minute history of the Internet by Federal Computer week at FCW.COM Mike: So, the federal government has ordered its agencies to become IPv6- capable by June of 2008 and this is going to happen in June on our federal government networks - how about businesses? It's happening with business too Mike. Let's take Verizon as an example as quoted in a Light Reading post from last September. Verizon Business, which began its first phase of deploying IPv6 on the public IP network in 2004, will complete the North America region in 2008 and move into the Asia-Pacific and European regions from late 2008 to 2009. The company will operate both IPv6 and IPv4, in what is known as a dual stack arrangement, on its multi protocol label switching (MPLS) network core. The company also has deployed IPv6 throughout its network access points (peering facilities) where Internet service providers exchange traffic. Mike: So, what's the problem with IPv4? It's a combination of a lot of things - Microsoft has a nice set of resources on IPv4 and IPv6 - let's use that as a guide: The current version of IP (known as Version 4 or IPv4) has not been substantially changed since RFC 791 was published in 1981. IPv4 has proven to be robust, easily implemented and interoperable, and has stood the test of scaling an internetwork to a global utility the size of todayâs Internet. This is a tribute to its initial design. However, the initial design did not anticipate the following: The recent exponential growth of the Internet and the impending exhaustion of the IPv4 address space. IPv4 addresses have become relatively scarce, forcing some organizations to use a Network Address Translator (NAT) to map multiple private addresses to a single public IP address. While NATs promote reuse of the private address space, they do not support standards-based network layer security or the correct mapping of all higher layer protocols and can create problems when connecting two organizations that use the private address space. Additionally, the rising prominence of Internet-connected devices and appliances ensures that the public IPv4 address space will eventually be depleted. The growth of the Internet and the ability of Internet backbone routers to maintain large routing tables. Because of the way that IPv4 network IDs have been and are currently allocated, there are routinely over 85,000 routes in the routing tables of Internet backbone routers. The current IPv4 Internet routing infrastructure is a combination of both flat and hierarchical routing. The need for simpler configuration. Most current IPv4 implementations must be either manually configured or use a stateful address configuration protocol such as Dynamic Host Configuration Protocol (DHCP). With more computers and devices using IP, there is a need for a simpler and more automatic configuration of addresses and other configuration settings that do not rely on the administration of a DHCP infrastructure. The requirement for security at the IP level. Private communication over a public medium like the Internet requires encryption services that protect the data being sent from being viewed or modified in transit. Although a standard now exists for providing security for IPv4 packets (known as Internet Protocol security or IPSec), this standard is optional and proprietary solutions are prevalent. The need for better support for real-time delivery of dataâalso called quality of service (QoS). While standards for QoS exist for IPv4, real-time traffic support relies on the IPv4 Type of Service (TOS) field and the identification of the payload, typically using a UDP or TCP port. Unfortunately, the IPv4 TOS field has limited functionality and over time there were various local interpretations. In addition, payload identification using a TCP and UDP port is not possible when the IPv4 packet payload is encrypted. To address these and other concerns, the Internet Engineering Task Force (IETF) has developed a suite of protocols and standards known as IP version 6 (IPv6). This new version, previously called IP-The Next Generation (IPng), incorporates the concepts of many proposed methods for updating the IPv4 protocol. The design of IPv6 is intentionally targeted for minimal impact on upper and lower layer protocols by avoiding the random addition of new features. Mike: OK - can you list the primary features of IPv6? What makes it different? Sure Mike - this list also comes from Microsoft's website. The following are the features of the IPv6 protocol: New header format Large address space Efficient and hierarchical addressing and routing infrastructure Stateless and stateful address configuration Built-in security Better support for QoS New protocol for neighboring node interaction Extensibility Mike: Let's go through the list with a brief summary of each. Your first item on the list was the new header format. What's different? Mike: How about number 2, large address space? Mike: Number 3 was efficient and hierarchical addressing and routing infrastructure - can you describe? Mike: How about number 4, stateless and stateful address configuration? Mike: Number 5 was built-in security. Mike: How about number 6, better support for QoS? Mike: And number 7, new protocol for neighboring node interaction? Mike: And finally, number 8, extensibility. Mike: Are there any other things you want to add to the list? Mike: Are we ready? I always look at the end devices (even though there is so much more) and, if we just look at desktops, you have to look at Microsoft. Microsoft started with the following implementations of IPv6, all subsequent versions/products continue to support IPv6: The IPv6 protocol for the Windows Server 2003 and later families. The IPv6 protocol for Windows XP (Service Pack 1 [SP1] and later). The IPv6 protocol for Windows CE .NET version 4.1 and later The capture and parsing of IPv6 traffic is supported by Microsoft Network Monitor, supplied with Microsoft Server 2003 and later products. Mike: This is a good overview - next week we'll get into some details on the IPv6 protocol!

Nintendo says cigarette ash is causing problems with the gameplay of "Super Smash Brothers Brawl." Funny, I would have thought that would be more of a problem with Wii Sports, and with players' lungs, not the optical drive. Plus, we keep you up to date on the Yahoo-Microsoft merger prospects and how Google is being a third wheel now.

First show of 2008 back in the saddle and ready to head to Vegas. Lots to cover tonight and I appreciate your iTunes Reviews of the show! Sponsors: Special Promotion code 20% off on 1 Year Shared Hosting Plans use Godaddy Code Todd20 [Save 10% off on any order at GoDaddy.com!] Use Code Todd [Try GoToMeeting free for 30 days at GoToMeeting.com/techpodcasts. No credit card needed.] Twitter Me http://www.twitter.com/geeknews My Facebook Profile Comments to 619-342-7365 e-mail to geeknews@gmail.com The 2008 CES coverage starts next week you will want to check here at least daily for new coverage. I will be live blogging many of the events and we may even live stream some CES Coverage. Listener Links Pocket Projector WiFi Virus 1981 PC Hacked! Generation Lost Webware Hits and Misses Peru OLPC Show Notes: TSA Facecrimes Tree's not breathing as much CO2? Bypass Disabled IE 20 Best iPhone Apps Linux Switch Tips IPv6 Coming Bizarre Google Maps Cool Space Image Facebook OWNS your Data Banned for Life for taking Picture Dell LCD Crystal Monitor DRM and HD Monitors out of Control Powramid Kreative Power Belkin RockStar N95 and YouTube New DUI Tool Om Malik Best Wishes Podcasters and FOIA Survive CES 2008 Become a Celebrity Scoble and Facebook Data Plaxo Blows It Youngest Exoplanet Deep Impact Flies By Earth NASA gets their Money

Happy Trails everyone. This is the final episode of In the Trenches. Kevin and I do a nice meaty show with a dash of reminiscence. The site will stay around for a while so newer listeners can find old shows. We also gathered up everything to have on archive.org when the time comes for Kevin to re purpose his site. Links mentioned in this podcast: Mac and Windows IPv6 Calculator Cacti Plugins and EzCacti DNS-O-Matic Adtran Atlas Scripting with pstools tricks FiT A Geek Christmas Carol ITT Frapr Map Kevin in PCWeenies ITT Behind the Scenes Episode Rate My Network Diagram Sox Interview with Chuck Herrin Other sites mentioned in this podcast: Absoblogginlutely Crescent Audio Novel Tech News Radio Mike McBride Online Mike Tech Show Typical Mac User Podcast Technorama

Sponsored by listeners like you Turns out I didn t go solo after all. Kevin joins me one more time because I had told him about some elearning material with Microsoft. It got him on a roll. I will be touching base with Anthony and Jason to see what good stuff they have been up to while I was out of town. That should give us some more good shows going into the holiday season. Links mentioned in this podcast: Micosoft Windows 2008 eLearning Portal Dynagen Front end for Cisco Router Emulator Dynamips Cisco Emulator Nikto Web Tester Owasp Application Security IPv6 Presentations Cisco IPv6 Brief Cisco IPv6 PDF Cheat Sheet Gartner Enterprise Networking Summit - Nashville Xerte - Free rapid development tool for interactive learning content. OLAT - Java-based, Open Source LMS Free Corporate Learning Online Conference SCORM - Sharable Content Object Reference Model Tags: Cisco CCNA, IPv6, Windows 2008, OWASP, eLearning Download Standard Podcast Download LoFi Edition

http://www.pcmech.com - How-to: Fix a Slow Internet Connection in Ubuntu 7.10

Este Podcast trata acerca de IPv6 y sus caractersticas

Music Downloads that Block iPods Insiders Bigger Risk than Virus Attacks Big Brother Is Watching SDR News is a Daily (M-F) Technology Podcast with Tech News Highlights from Slashdot, Digg and Reddit Click Here to Sign Up for the New SDR Newsletter Contact Us Prefer a Direct Download ? (mp3) Download today s show. Chernobyl in 2006 Watch the You Tube Episode Today s Headlines Include Music Downloads that Block iPods Insiders Bigger Risk than Virus Attacks Big Brother Is Watching SDR News Links If a news item has disappeared from the Del.icio.us list above, try the full list here. Thumbnail Views: Via Thumblicio.us SEARCH ANY STORY YOU HEAR ON THE PODCAST Web Video and P2P It looks like the only long term solution to the bandwidth expense of video is actually well within reach. In a rather clever adaptation of P2P, the recommendation that ISP s form pools of subscribers with the ISP customer base. Peer to peer exchange is allowed (in fact encouraged) but it is metered or traffic shaped only for content that has not yet made it into the ISP pool. For a large operator, such as Comcast, the removal of the large traffic to and from other ISP s (and the associated costs) happens automatically, once one piece of media comes into the subscriber pool. Sounds smart. We will see if operators are smart enough to take advantage of it. Click to view videos submitted or recommended by other SDR podcast listeners. . . If you find a YouTube video that pertains to one of our news items, or have produced an item that would be of interest to SDR listeners, please send us the link slashdotreviewgmail.com Save $10 on any order of $50 or more at GoDaddy.com! Be sure to sign up for our upcoming roundtable. We will be using GoToMeeting. Also, be sure to check out GoToMeeting. Why? Because you can hold meetings right over the Net from anywhere. Plus, you can hold all the meetings you want for one flat rate. To get your free 30-day trial , visit www.gotomeeting.com/techroundtable. Take 10% off any order at GoDaddy.com! Code SLASH Take $5 off any $30 order at GoDaddy.com! Code SLASH2 .com Domains $6.95 at GoDaddy.com! Code SLASH3 More blogs about SlashdotReview Slashdot Review by Email - Sign up here: Enter your Email Powered by FeedBlitz

Apparently law enforcement careers are as close as you can get to superhero living. That's the only explanation for why a raid targeting mass production of game console mod chips would be called "Operation Tangled Web." Oh, and there was a huge raid targeting mass production of game console mod chips, so hack your own consoles, you lazy bums.

http://live.pirillo.com/ - ODid you know there s a limit to the number of devices that can be connected to the Internet at any given time? It s true - we re running out of IP addresses that can be given out. IPv4 was originally designed at a time when the next biggest thing was getting 1/3 of the US population a home computer. As you can imagine, nobody could imagine the explosive growth of the Internet.Right now we re in a transitional period: from IPv4 to IPv6. With IPv4 we only had 32 bits worth of numbers that could be used on the Internet. With IPv6 we have 128 bits worth of numbers.What is IPv6? It s basically the same Internet Protocol, it just has a lot more numbers. It s also backwards compatible - so IPv4 addresses will actually work on IPv6. This simple means there are will be little to no impact felt by the average consumer: you ll get online in basically the same way you to today, surf the same way, and generally do the things you ve always done.Want to embed our What is IPv6? video in your blog? Use this code: object width= 425 height= 350 param name= movie value= http://www.youtube.com/v/IjV1Vo0_BRU /aram param name= wmode value= transparent /param embed src= http://www.youtube.com/v/IjV1Vo0_BRU type= application/x-shockwave-flash wmode= transparent width= 425 height= 350 /embed /object br / a href= http://chris.pirillo.com/ Chris /a | a href= http://live.pirillo.com/ Live Tech Support /a | a href= http://media.pirillo.com/ Video Help /a | a href= http://feeds.pirillo.com/ChrisPirilloShow Add to iTunes /a

We are thinking of going to the Pure Pwnage premiere in London. Happy Birthday MixWizard. Sefran reviews Shuffle! We talk about Starcraft 2 and the Colin McRae Dirt demo, and Jalada has a chat about IPv6 and it's implications for the rest of us.

Norteamericana, ciudadana Suiza, residente en Venezuela desde hace muchos años Ginger es tutora de los cursos virtuales de Governaza de Internet para formar recursos humanos. Author: lacnicnet Keywords: Internet LACNIC redes IPv6 Root Server Eventos Added: May 29, 2007

MOICE Office 2003 security plug-in, source routing infests IPv6, the continuing risk of removable storage, preparing for electronic evidence acquisition, preventing data leakage through swap and hibernation files.

Ever wonder what the advent of IPV6 really means? Why does it matter, really? What about Toredo Server? What does it do and why? Well, wonder no more. Meet Michael Surkan, Program Manager in the Networking group. From security to performance, Mike explains how IPV6 represents the future of the Internet even though it's been around for a while. Did you know that Windows Vista has native support for IPV6? Tune in and learn a lot more about this important networking construct. Download the Video Watch the Video

Examination of biometrics in general. Introduction of Keystroke Dynamics as a low impact biometric alternative.

Dave Naylor talks about Google sitemaps while Mikkel deMib explains why Kinderstart.com lost their case.