Subject: General Tech, Networking | November 21, 2012 - 11:15 AM | Jeremy Hellstrom
Tagged: quantum encryption, security
One of the biggest hurdles to implementing quantum cryptography has been vaulted, with researchers finding a way to transmit the key over a non-dedicated connection. Previously because of the inherent noise in a fibre channel transmitting general data the key would be lost and so a separate fibre channel was needed which only the keys were able to transmit but thanks to researchers at Toshiba’s Cambridge Research Laboratory it is now possible to send the keys on existing fibre which also carries other data. They have created a detector which can open for a mere 100 millionths of a micro-second and receive the key, with the detection window being so quick there is not time for noise to interfere and the wrong photon be detected as the key. The Register reports they can transmit keys over a line running at 500kbps for 50km and still have the key properly detected.
"Traditionally it has been necessary to use dedicated fibre to send the single photons (particles of light) that are required for Quantum Key Distribution (QKD). This has restricted any applications of quantum cryptography technology to specialist and small-scale systems in banks and high-level government, essentially because of the extra inconvenience and cost required in allocating a dedicated fibre strand for quantum key distribution."
Here is some more Tech News from around the web:
- Cloudy admin? Here's how to ward off Call of Duty-playing teens @ The Register
- Media Center Key Accidentally Gives Pirates Free Windows 8 Pro License @ Slashdot
- How-to: installing Windows 8 without product key @ Hardware.info
- The Rise and Fall of AMD @ Techspot
- Newer Technology Power2U USB Charging Wall Outlet @ Funky Kit
- Mozilla previews Facebook integration with Firefox 17 @ The Inquirer
- Tiger Direct First Annual Holiday Bash @ TechwareLabs
- Enter to win a Radeon HD 7770 CrossFire team and game bundle @ The Tech Report
Subject: General Tech, Networking | November 15, 2012 - 09:49 AM | Jeremy Hellstrom
Tagged: WiFox, wireless
The short blurb at Slashdot makes WiFox sound more impressive than the actual implementation will be, but for anyone who has attempted to connect to WiFi at a tech show would love to see this new software appear on wireless access points. Once a channel becomes crowded by multiple users, especially if they use devices which like to have a constant connection, the network will hit a point of saturation and the performance of every device on the network will suffer; not just the most recently connected devices. WiFox is a piece of software which can monitor channel saturation and when it is reached it will immediately assign all available bandwidth to the WAP and allow it to transmit all backlogged data before then allocating bandwidth back to the devices ... clearing the tubes as it were. It sounds like this will be easily added to existing WAPs instead of only being available to the next generation of devices so while your WAN will not suddenly become 700 times faster, the WiFi at next conference you go to might just be usable for a change.
"Engineers at NC State University (NCSU) have discovered a way of boosting the throughput of busy WiFi networks by up to 700%. Perhaps most importantly, the breakthrough is purely software-based, meaning it could be rolled out to existing WiFi networks relatively easily — instantly improving the throughput and latency of the network. As wireless networking becomes ever more prevalent, you may have noticed that your home network is much faster than the WiFi network at the airport or a busy conference center. The primary reason for this is that a WiFi access point, along with every device connected to it, operates on the same wireless channel."
Here is some more Tech News from around the web:
- Texas Instruments sheds 1,700 staff in smartphone retreat @ The Register
- The Xeon Phi at work at TACC @ AnandTech
- Interview with Netgears Rob Wells @ Hardwareheave
- 3-D Tools: Amazing Programs for Product Design @ TechwareLabs
- Kinected Browser Lets You Flick Through Websites @ Slashdot
- 1000 HAWKEN Beta Key Give Away From TechwareLabs and Mushkin
Amped Wireless R20000G and UA2000 Introduction
Continuing with our networking adapter and router reviews, today we have a pair of devices on tap from a relative newcomer to the home and office networking field, Amped Wireless. Founded in 2007, they began selling Wi-Fi products in 2010. In those 2 years they’ve already pushed out a wide array of Routers, Range Extenders, Access Points, USB Adapters and Antennas/Boosters. While they don’t have the history of Cisco, Netgear or D-Link, it’s great to see new companies entering the fray as more competition can only benefit the consumer.
Today we’re looking at their flagship High Power Router, the Wireless-N 600mw Gigabit Dual Band R20000G as well as one of their leading USB adapters, the High Power Wireless-N Directional Dual Band UA2000. List price for the router and adapter is $169 and $99 respectively, but the router and adapter can be found online for about $10 less each at Newegg.
Some computer components get all the glory. Your normal lineup of FPS crushing GPU’s, Handbrake dominating CPU’s, and super-fast Memory end up with most of the headlines. Yet behind the scenes, there are some computer components we use that are pivotal in our use and enjoyment of computers and receive very little fanfare. Without networking we wouldn’t have file sharing, LAN parties or even the Internet itself. Without routers and network adapters, we wouldn’t have networking.
ASUS recently sent a whole slew of networking components our way and we’ve decided to take them for a spin and see if they’re worth your hard earned dollars. Our box of ASUS goodies included:
- ASUS RT-N66U Gigabit Router – Dual Band Wireless-N900
- ASUS PCE-N10 - Wireless N PCI-E Adapter Wireless-N
- ASUS PCE-N15 - Wireless N PCI-E Adapter Wireless-N
- ASUS USB-N53 - Dual Band Wireless N Adapter
- ASUS USB-N66 - Dual Band Wireless-N900 Adapter
Without further ado, let’s jump in and tackle each one.
ASUS RT-N66U Gigabit Router – Dual Band Wireless-N900
Routers are one of those components that most of us don’t really think about unless something goes horribly wrong. Most people will buy one they find on a big box store shelf (or even worse, just use their ISP’s router), pull it out of the box, plug a few cables into it and then forget about it in a closet for a few years.
Subject: Networking | May 16, 2012 - 06:57 PM | Tim Verry
Tagged: wifi, router, networking, netgear, 802.11ac
Following up on the announcement by Buffalo Technology, Netgear has released their own 802.11ac wireless router, the R6300. (PC Perspective recently ran a giveaway for the R6300 which you can read about here). In addition to the flagship 802.11ac router, Netgear announced a slimmed down version–the R6200–and the A6200 WiFi USB dongle.
The Netgear R6300 is their highest end wireless router supporting the 802.11ac WiFi standard. It supports 802.11ac speeds up to 1300 Mbps (450 Mbps over wireless n) and is backwards compatible with the 802.11 a/b/g/n standards. It also has two USB 2.0 ports that can be used to share hard drive and printers across the network. Further, the “5G WiFI” router is powered by a Broadcom chipset, which should open the door to third part firmware(s).
In addition to the above router, Netgear has announced the R6200 wireless router. It is compatible with the upcoming 802.11ac standard, but at reduced speeds. It features approximately 900 Mbps transfer rates over the “ac” standard and up to 300 Mbps over the 802.11n standard. The router is backwards compatible with all the older consumer standards (a/b/g/n), and it features a single USB 2.0 port to share a printer or hard drive to computers on the LAN.
Last up in the announcement is the Netgear A6200. This device is a USB WiFi dongle that supports the 802.11ac standard as well as existing a/b/g/n networks. It claims to deliver enough speed for HD streaming of videos, though Netgear has not stated if it will be able to take advantage of the full 1300 Mbps theoretical maximum connection. The WiFi adapter features a swiveling antenna and a docking station for use with desktop systems.
The other neat feature that the new routers support is the Netgear Genie application, which allows users to monitor and control the network using an application on their computer or smartphone (iOS and Android). They also feature Netgear MyMedia, printer sharing, guest network access, a DLNA server, parental controls, and automatic WiFi security.
The Netgear R6300 router is available for purchase now with an MSRP of $199.99. The R6200 router and A6200 WiFi dongle will be available for purchase in Q3 2012 with suggested retail prices of $179.99 and $69.99 respectively.
Subject: Networking | May 15, 2012 - 02:38 PM | Tim Verry
Tagged: wireless, router, networking, ethernet bridge, buffalo, 802.11ac
Netgear and Buffalo have been working hard to build and get to market new wireless routers based on the 802.11ac (pending ratification) standard. PC Perspective recently ran a giveaway for the Netgear 802.11ac router, but it seems that Buffalo has managed to beat them to market with their new gear. In fact, Buffalo yesterday released two 802.11ac devices with the AirStation™ WZR-D1800H wireless router and WLI-H4-D1300 wireless Ethernet bridge. Both devices are powered by Broadcom’s 5G WiFi chips (what Broadcom refers to 802.11ac as–the fifth generation of consumer WiFi) and based around the IEEE standard that is set to become an official standard early next year.
The Buffalo 802.11ac Router (left: front, right: rear view)
The router and Ethernet bridge both support the upcoming 802.11ac standard as well as the current 802.11 b, g, and n standards so they are backwards compatible with all your devices. They also support all the normal functions of any other router or bridge device–the draft support for 802.11ac is what differentiates these products. The router stands vertically and has a router reset and USB eject buttons, one USB 2.0 port, four Gigabit Ethernet LAN ports, and one Gigabit Ethernet WAN port. Below the WAN port is a power button and DC in jack. The Buffalo Ethernet bridge allows users to connect Ethernet devices to a network over WiFi. It looks very similar to the router but does not have a WAN port or USB port on the back. It also does not act as a router, only a bridge to a larger network. The largest downside to the Ethernet bridge is pricing: (although out of stock now) Newegg has the bridge listed for the same price as the full fledged router. At that point, it does not have much value–users would be better off buying two routers and disabling the router features on one (and because the Broadcom chipset should enable custom firmwares, this should be possible soon).
The Buffalo 802.11ac Ethernet Bridge (left: front, right: rear view)
What makes these two devices interesting though is the support for the “5G WiFi” 802.11ac wireless technology. This is the first time that the Wireless connections have a (granted, theoretical) higher transfer speed than the wired connections, which is quite the feat. 802.11ac is essentially 802.11n but with several improvements and only operating on channels in the 5GHz spectrum. The pending standard also uses wider 80 Mhz or 160 MHz channels, 256 QAM modulation, and up to eight antennas (much like 802.11n’s MIMO technology) to deliver much faster wireless transfer rates than consumers have had available previously. The other big technology with the upcoming WiFi standard is beamforming. This allows wireless devices to communicate with their access point(s) to determine relative spatial position. That data is then used to adjust the transmitted signals such that it is sent in the direction of the access point at the optimum power levels. This approach is different to traditional WiFi devices that broadcast omni-directionally (think big circular waves coming out of your router) because the signals are more focused. By focusing the signals, users get better range and can avoid WiFi deadspots.
Hajime Nakai, Chief Executive Officer at Buffalo Technology stated that “along with Broadcom, we continue to demonstrate our commitment to innovation by providing a no-compromise, future proofed wireless infrastructure for consumers’ digital worlds.”
The Buffalo AirStation™ WZR-D1800H router and WLI-H4-D1300 Ethernet bridge are available for purchase now for around $179.99 USD. The Ethernet bridge is listed as out of stock on Newegg; however, the router is still available (and the better value).
Subject: Networking | April 18, 2012 - 07:33 PM | Tim Verry
Tagged: wi-fi, qualcomm, networking, killer, Ethernet
Qualcomm Atheros today launched two new networking cards for the desktop and laptop markets. A subsidiary company of Qualcomm (formerly Killer Networks), the Wireless-N 1202 and E2200 provides Wi-Fi and Ethernet connectivity based on Killer Networks’ technology.
The Wireless-N 1202 is a 802.11n Wi-Fi and Bluetooth module with 2x2 MIMO antennas which should provide plenty of Wireless N range. On the wired side of things the E2200 is a Gigabit Ethernet network card for desktop computers. Both modules are powered by Killer Network’s chip and the Killer Network Manager software. The software will allow users to prioritize gaming, audio, and video packets over other network traffic to deliver the best performance. Director of Business Development Mike Cubbage had the following to say.
“These products create an unprecedented entertainment and real-time communications experience for the end user by ensuring that critical online applications get the bandwidth and priority they need, when they need it.”
The E2200 Gigabit Ethernet NIC is available for purchase now, and the Wireless-N 1202 module will go on sale in May. More specific information on the products will be available after the official launch date (today) so stay tuned to PC Perspective.
Subject: Networking | March 16, 2012 - 02:58 AM | Tim Verry
Tagged: zte, wdm, networking, fiber optics, 1.7tbps
Chinese telecommunications provider ZTE showed off a new fiber optic network capable of 1.7 Tbps over a single fiber cable. Computer World reports that the ZTE network trial utilizes Wavelength Division Multiplexing technology to pack more information through a single cable by employing multiple wavelengths that comprise different channels.
The ZTE fiber network runs 1,750 kilometers (just over 1,087 miles) and uses eight channels- each capable of 216.4 Gbps- to send data at speeds up to 1.7312 Tbps. The company has no immediate plans to implement such a network. Rather, they wanted to prove that an upgrade to 200 Gbps per channel speeds is possible. To put their achievement in perspective, Comcast currently has fiber networks running at 10 Gbps, 40 Gbps, and 100 Gbps channel speeds, according to an article on Viodi.
And to think that I only recently upgraded to a Gigabit router! I can't wait to see this technology trickle down towards a time when home networks are running through fiber optic cables and doing so at terabit per second speeds!
Image courtesy kainet via Flickr Creative Commons.
Subject: Networking | August 3, 2011 - 11:01 PM | Tim Verry
Tagged: security, networking, cyber warfare
Computer World posted a short news piece quoting the former director of the CIA’s Counter-terrorism Center Cofer Black as he explained why Cyberthreats needs to be taken more seriously by the nation. Cofer Black played a key role during the first term of the George W. Bush administration and was one of the counter-terrorism experts made aware of a likely attack on American soil prior to the September 11th attacks.
Black noted that the people in a position with the power to act on these warnings were unwilling to act without some measure of validation. He goes on to say that while the general public was blindsided by the September 11th attacks, “I can tell that neither myself nor my people in counter-terrorism were surprised at all.”
With cyber warfare becoming increasingly utilized as an attack vector to foreign adversaries, the need for quick responses to threats will only increase. Further, the demand on security professionals to search for and validate threats for those in power to enact a response will be a major issue in the coming years. “The escalatory nature of such threats is often not understood or appreciated until they are validate,” Black offered in regards to the challenges decision makers face. He believes that the decision makers do listen to the threats; however, they do not believe them. This behavior, he believes, will hinder the US’ ability to properly respond to likely threats.
With the recent announcement by the Department of Defense that physical retaliation to Internet based attacks (in addition to counter attacks) may be necessary, the need to quickly respond to likely threats proactively is all the more imperative. Do you believe tomorrows battles will encompass the digital plane as much as real life?
Subject: Networking | June 12, 2011 - 01:24 AM | Tim Verry
Tagged: networking, Lawsuit, Internet, Cisco
Cisco, the worldwide networking heavyweight, is now facing a lawsuit from three Chinese website authors for Harry Wu. Mr. Wu is a Chinese political activist who spent 19 years in Chinese forced-labor prison camps, according to Network World. The charges raised against Cisco allege that Cisco optimized its networking equipment and worked with the Chinese government to train them to identify and track individuals on the Internet that speak out against the Chinese government with pro-democratic speech.
In a similar vein, the networking company was presented with an additional lawsuit last month by members of the Falun Gong religious group. This previous lawsuit claims that Cisco supplied networking technology to the Chinese government with the knowledge that the technology would be used to oppress the religious movement. Falun Gong is religious and spiritual movement that emphasizes morality and the theoretical nature of life. It was banned in July 1999 by the Communist Party Of China for being a “heretical organization”. Practitioners have been the victims of numerous human rights violations throughout the years.
Cisco has stated on the company’s blog that they strongly support free expression on the Internet. Further, they have responded to the allegations by stating that “Our company has been accused in a pair of lawsuits of contributing to the mistreatment of dissidents in China, based on the assertion that we customize our equipment to participate in tracking of dissidents. The lawsuits are inaccurate and entirely without foundation,” as well as “We have never customized our equipment to help the Chinese government—or any government—censor content, track Internet use by individuals or intercept Internet communications.”
It remains to be seen whether the allegations hold any truth; however, Cisco has been here before and are likely to see further lawsuits in the future. How do you feel about the Cisco allegations?
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