OpenSUSE 11.1 is coming soon !

Latest version of OpenSUSE 11.1, is scheduled for release on December 18. The new version will include updated software and some important new features that enhance the quality of the distribution.

OpenSUSE 11.1 includes version 2.6.27 of the Linux kernel, which includes the ath9k wireless driver and brings improved compatibility with webcam devices. It also ships with Firefox 3.0.4, the latest version of the popular open source web browser.

For developers, it includes Python 2.6 and Mono 2.0, both of which bring significant improvements to their respective programming languages. Lots of great development tools are available from the openSUSE package repositories, including MonoDevelop 1.0 and Eclipse 3.4.

This version of openSUSE also includes OpenOffice.org 3.0, which was released earlier this year and added features like native support for Microsoft's Office Open XML format, a new zoom slider, and a few other features. [read more]

Hopefully its WPA wireless authentication will work on a secured wireless environment. We are looking for documentation that OpenSUSE 11.1 is a friendly to high security wireless networking environment.

OpenSUSE 11.1 is coming soon !

Latest version of OpenSUSE 11.1, is scheduled for release on December 18. The new version will include updated software and some important new features that enhance the quality of the distribution.

OpenSUSE 11.1 includes version 2.6.27 of the Linux kernel, which includes the ath9k wireless driver and brings improved compatibility with webcam devices. It also ships with Firefox 3.0.4, the latest version of the popular open source web browser.

For developers, it includes Python 2.6 and Mono 2.0, both of which bring significant improvements to their respective programming languages. Lots of great development tools are available from the openSUSE package repositories, including MonoDevelop 1.0 and Eclipse 3.4.

This version of openSUSE also includes OpenOffice.org 3.0, which was released earlier this year and added features like native support for Microsoft's Office Open XML format, a new zoom slider, and a few other features. [read more]

Hopefully its WPA wireless authentication will work on a secured wireless environment. We are looking for documentation that OpenSUSE 11.1 is a friendly to high security wireless networking environment.

OpenSUSE 11.1 is coming soon !

Latest version of OpenSUSE 11.1, is scheduled for release on December 18. The new version will include updated software and some important new features that enhance the quality of the distribution.

OpenSUSE 11.1 includes version 2.6.27 of the Linux kernel, which includes the ath9k wireless driver and brings improved compatibility with webcam devices. It also ships with Firefox 3.0.4, the latest version of the popular open source web browser.

For developers, it includes Python 2.6 and Mono 2.0, both of which bring significant improvements to their respective programming languages. Lots of great development tools are available from the openSUSE package repositories, including MonoDevelop 1.0 and Eclipse 3.4.

This version of openSUSE also includes OpenOffice.org 3.0, which was released earlier this year and added features like native support for Microsoft's Office Open XML format, a new zoom slider, and a few other features. [read more]

Hopefully its WPA wireless authentication will work on a secured wireless environment. We are looking for documentation that OpenSUSE 11.1 is a friendly to high security wireless networking environment.

Aruba Networks and Force 10 Networks Offers Reliable Real Time High Speed WLAN for Campus

Seamless Converged Mobility Solution

Force10 Networks® and Aruba Networks® have partnered to deliver an interoperable solution for seamless converged mobility with unmatched security services by combining best-of-breed switching and routing with WLAN infrastructure.

The inherent reliability of the Force10 C300 resilient switch guarantees predictable and constant access for all users, wired and wireless. Aruba’s customer focused approach to secure mobility extends network connectivity and enterprise security anywhere as a user roams, allowing the largest networks to be centrally managed.

Together, this innovative solution allows customers to provide a high performance wireless and wired network in education, healthcare, finance and enterprises large and small. By building a unified network fabric that extends pervasive reliability, network control and scalability, enterprises are ensured a network that is a strategic asset.

Solution Key Features

• Non-blocking architecture supports up to 384 line-rate Gigabit Ethernet ports
• Embedded security features guarantee a secure connection
• Intelligent power management system prioritizes power to distributed access points

Suitable Campus Solution

• In-house Campus Broadcasting Services via wireless network
• In-house free IP-Telephony VoIP or VoWiFi for campus sommunity

Aruba Networks and Force 10 Networks Offers Reliable Real Time High Speed WLAN for Campus

Seamless Converged Mobility Solution

Force10 Networks® and Aruba Networks® have partnered to deliver an interoperable solution for seamless converged mobility with unmatched security services by combining best-of-breed switching and routing with WLAN infrastructure.

The inherent reliability of the Force10 C300 resilient switch guarantees predictable and constant access for all users, wired and wireless. Aruba’s customer focused approach to secure mobility extends network connectivity and enterprise security anywhere as a user roams, allowing the largest networks to be centrally managed.

Together, this innovative solution allows customers to provide a high performance wireless and wired network in education, healthcare, finance and enterprises large and small. By building a unified network fabric that extends pervasive reliability, network control and scalability, enterprises are ensured a network that is a strategic asset.

Solution Key Features

• Non-blocking architecture supports up to 384 line-rate Gigabit Ethernet ports
• Embedded security features guarantee a secure connection
• Intelligent power management system prioritizes power to distributed access points

Suitable Campus Solution

• In-house Campus Broadcasting Services via wireless network
• In-house free IP-Telephony VoIP or VoWiFi for campus sommunity

Aruba Networks and Force 10 Networks Offers Reliable Real Time High Speed WLAN for Campus

Seamless Converged Mobility Solution

Force10 Networks® and Aruba Networks® have partnered to deliver an interoperable solution for seamless converged mobility with unmatched security services by combining best-of-breed switching and routing with WLAN infrastructure.

The inherent reliability of the Force10 C300 resilient switch guarantees predictable and constant access for all users, wired and wireless. Aruba’s customer focused approach to secure mobility extends network connectivity and enterprise security anywhere as a user roams, allowing the largest networks to be centrally managed.

Together, this innovative solution allows customers to provide a high performance wireless and wired network in education, healthcare, finance and enterprises large and small. By building a unified network fabric that extends pervasive reliability, network control and scalability, enterprises are ensured a network that is a strategic asset.

Solution Key Features

• Non-blocking architecture supports up to 384 line-rate Gigabit Ethernet ports
• Embedded security features guarantee a secure connection
• Intelligent power management system prioritizes power to distributed access points

Suitable Campus Solution

• In-house Campus Broadcasting Services via wireless network
• In-house free IP-Telephony VoIP or VoWiFi for campus sommunity

Aruba offers quite secure WEP authentication

Even though we know that WEP is already broken, but still better than deploying wireless without encryption at all. Deploying an Aruba network significantly reduces an attacker’s ability to crack WEP. 

Cuurently, the WEP cracking tools such as (Airsnort, WEPcrack) rely on packets with weak initialization vectors (IVs) in order to conduct analysis. Aruba controllers will not generate packets with weak IVs – thus all downstream packets will be unusable for cracking purposes

Some other cases, clients will still generate weak IVs – small percentage of client traffic will contain packets with weak IVs. A determined attacker will eventually crack the WEP key – though it may take weeks using client traffic alone. - Wireless Zone

For more secure authentication, you have an option to use 802.1x type of authentication and enhance with WPA2 encryption offered by Aruba Controller.

Aruba offers quite secure WEP authentication

Even though we know that WEP is already broken, but still better than deploying wireless without encryption at all. Deploying an Aruba network significantly reduces an attacker’s ability to crack WEP. 

Cuurently, the WEP cracking tools such as (Airsnort, WEPcrack) rely on packets with weak initialization vectors (IVs) in order to conduct analysis. Aruba controllers will not generate packets with weak IVs – thus all downstream packets will be unusable for cracking purposes

Some other cases, clients will still generate weak IVs – small percentage of client traffic will contain packets with weak IVs. A determined attacker will eventually crack the WEP key – though it may take weeks using client traffic alone. - Wireless Zone

For more secure authentication, you have an option to use 802.1x type of authentication and enhance with WPA2 encryption offered by Aruba Controller.

Aruba offers quite secure WEP authentication

Even though we know that WEP is already broken, but still better than deploying wireless without encryption at all. Deploying an Aruba network significantly reduces an attacker’s ability to crack WEP. 

Cuurently, the WEP cracking tools such as (Airsnort, WEPcrack) rely on packets with weak initialization vectors (IVs) in order to conduct analysis. Aruba controllers will not generate packets with weak IVs – thus all downstream packets will be unusable for cracking purposes

Some other cases, clients will still generate weak IVs – small percentage of client traffic will contain packets with weak IVs. A determined attacker will eventually crack the WEP key – though it may take weeks using client traffic alone. - Wireless Zone

For more secure authentication, you have an option to use 802.1x type of authentication and enhance with WPA2 encryption offered by Aruba Controller.

Top 10 Robotic Countries

Currently, there are about 1 million industrial robots toiling around the world, and Japan is the top country having high density of utilizing robots in its manufacturing industry. Statistically shows that, Japan has 295 of these electromechanical marvels for every 10 000 manufacturing workers—a robot density almost 10 times the world average and nearly twice that of Singapore (169), South Korea (164), and Germany (163).

ILLUSTRATION: MIKE VELLA

Although the top three countries are in Asia, Europe gets the regional title as the epicenter of global automation; it has a robot density of 50, compared to 31 in the Americas and 27 in the Asia/Pacific region.

IEEE Spectrum computed the robot density for 67 nations in all, using data from the International Federation of Robotics and the International Labour Organization [see http://www.spectrum.ieee.org/dec08/robodata (to come) for the complete list

By 2011 projection, the world’s industrial robot population is expected to rise to 1.2 million. Basically, robot can offers greater productivity, accuracy, or endurance compared to humans. It also capable to perform dirty, dangerous or dull jobs which humans find undesirable. Other jobs are physically inaccessible for human, such as exploring another planet, cleaning the inside of a long pipe, or performing laparoscopic surgery. As the number of robots increases, robotics-related jobs grow. Some jobs require existing job skills, such as building cables, assembling parts and testing. Other robotics jobs require new skills, such as robot installer and robot integrator.

ILLUSTRATION: MIKE VELLA

Reference: IEEE Spectrum

Top 10 Robotic Countries

Currently, there are about 1 million industrial robots toiling around the world, and Japan is the top country having high density of utilizing robots in its manufacturing industry. Statistically shows that, Japan has 295 of these electromechanical marvels for every 10 000 manufacturing workers—a robot density almost 10 times the world average and nearly twice that of Singapore (169), South Korea (164), and Germany (163).

ILLUSTRATION: MIKE VELLA

Although the top three countries are in Asia, Europe gets the regional title as the epicenter of global automation; it has a robot density of 50, compared to 31 in the Americas and 27 in the Asia/Pacific region.

IEEE Spectrum computed the robot density for 67 nations in all, using data from the International Federation of Robotics and the International Labour Organization [see http://www.spectrum.ieee.org/dec08/robodata (to come) for the complete list

By 2011 projection, the world’s industrial robot population is expected to rise to 1.2 million. Basically, robot can offers greater productivity, accuracy, or endurance compared to humans. It also capable to perform dirty, dangerous or dull jobs which humans find undesirable. Other jobs are physically inaccessible for human, such as exploring another planet, cleaning the inside of a long pipe, or performing laparoscopic surgery. As the number of robots increases, robotics-related jobs grow. Some jobs require existing job skills, such as building cables, assembling parts and testing. Other robotics jobs require new skills, such as robot installer and robot integrator.

ILLUSTRATION: MIKE VELLA

Reference: IEEE Spectrum

Top 10 Robotic Countries

Currently, there are about 1 million industrial robots toiling around the world, and Japan is the top country having high density of utilizing robots in its manufacturing industry. Statistically shows that, Japan has 295 of these electromechanical marvels for every 10 000 manufacturing workers—a robot density almost 10 times the world average and nearly twice that of Singapore (169), South Korea (164), and Germany (163).

ILLUSTRATION: MIKE VELLA

Although the top three countries are in Asia, Europe gets the regional title as the epicenter of global automation; it has a robot density of 50, compared to 31 in the Americas and 27 in the Asia/Pacific region.

IEEE Spectrum computed the robot density for 67 nations in all, using data from the International Federation of Robotics and the International Labour Organization [see http://www.spectrum.ieee.org/dec08/robodata (to come) for the complete list

By 2011 projection, the world’s industrial robot population is expected to rise to 1.2 million. Basically, robot can offers greater productivity, accuracy, or endurance compared to humans. It also capable to perform dirty, dangerous or dull jobs which humans find undesirable. Other jobs are physically inaccessible for human, such as exploring another planet, cleaning the inside of a long pipe, or performing laparoscopic surgery. As the number of robots increases, robotics-related jobs grow. Some jobs require existing job skills, such as building cables, assembling parts and testing. Other robotics jobs require new skills, such as robot installer and robot integrator.

ILLUSTRATION: MIKE VELLA

Reference: IEEE Spectrum

Brief Description about VLPS and MPLS

Historically, since 1980s, Ethernet has evolved from a Local Area Network (LAN) protocol running at 10 Mbps over a shared coaxial cable to a latest networking technology running at speeds up to 10 Gbps over all manner of copper wire and optical fiber in networks extending worldwide. As the Ethernet popularity become larger, Service providers offer variety of carrier Ethernet service to extend these network beyond the ‘LAN’ boundary into Wider access network environment, metropolitan area network (MAN).

As the network growth further, Multi Protocol Label Switching (MPLS) has become a great player for enterprise client to perform network interconnect between branches. MPLS Layer 2 point-to-point is an option for those whom require huge bandwidth for their network. Dedicated line will be physically planted at the clients dedicated places get link each other.However, the limitation of this giant trunk is that the service cannot go for point-to-multipoint services. Whilst, for those require lower bandwidth at their large number of sites, they would go for MPLS layer 3 IPVPN , which normally operates as a partitioned private network constructed over a shared IP-based backbone that utilizes technologies to ensure privacy of data.

Nonetheless, due to mega growth today in Data and video sharing, Service provider start to offer new service could comply on the huge multi-point transfered content. Virtual Private LAN Service (VPLS) would be a great player for such of those requirement. VPLS is a type of layer 2 VPN. In a VPLS, the Ethernet LAN at each customer site is extended as far as the edge of the provider network. The provider network then emulates the function of a LAN switch or bridge to connect all of the customer LANs to create a single bridged (Ethernet) LAN. One of the main differences between a VPLS and a MPLS point-to-point service is that the VPLS provides a point-to-multipoint service at layer 2.

VPLS has significant advantages for both service providers and customers. Service providers benefit because they can generate additional revenues by offering a new Ethernet service with flexible bandwidth and sophisticated service level agreements (SLAs). VPLS is also simpler and more cost effective to operate than a traditional service. Customers benefit because they can connect all of their sites to an Ethernet VPN that provides a secure, high speed and homogenous network. Moreover, VPLS provides a logical next step in the continuing evolution of Ethernet from a 10 Mbps shared LAN protocol to a multi-Gbps global service.

Brief Description about VLPS and MPLS

Historically, since 1980s, Ethernet has evolved from a Local Area Network (LAN) protocol running at 10 Mbps over a shared coaxial cable to a latest networking technology running at speeds up to 10 Gbps over all manner of copper wire and optical fiber in networks extending worldwide. As the Ethernet popularity become larger, Service providers offer variety of carrier Ethernet service to extend these network beyond the ‘LAN’ boundary into Wider access network environment, metropolitan area network (MAN).

As the network growth further, Multi Protocol Label Switching (MPLS) has become a great player for enterprise client to perform network interconnect between branches. MPLS Layer 2 point-to-point is an option for those whom require huge bandwidth for their network. Dedicated line will be physically planted at the clients dedicated places get link each other.However, the limitation of this giant trunk is that the service cannot go for point-to-multipoint services. Whilst, for those require lower bandwidth at their large number of sites, they would go for MPLS layer 3 IPVPN , which normally operates as a partitioned private network constructed over a shared IP-based backbone that utilizes technologies to ensure privacy of data.

Nonetheless, due to mega growth today in Data and video sharing, Service provider start to offer new service could comply on the huge multi-point transfered content. Virtual Private LAN Service (VPLS) would be a great player for such of those requirement. VPLS is a type of layer 2 VPN. In a VPLS, the Ethernet LAN at each customer site is extended as far as the edge of the provider network. The provider network then emulates the function of a LAN switch or bridge to connect all of the customer LANs to create a single bridged (Ethernet) LAN. One of the main differences between a VPLS and a MPLS point-to-point service is that the VPLS provides a point-to-multipoint service at layer 2.

VPLS has significant advantages for both service providers and customers. Service providers benefit because they can generate additional revenues by offering a new Ethernet service with flexible bandwidth and sophisticated service level agreements (SLAs). VPLS is also simpler and more cost effective to operate than a traditional service. Customers benefit because they can connect all of their sites to an Ethernet VPN that provides a secure, high speed and homogenous network. Moreover, VPLS provides a logical next step in the continuing evolution of Ethernet from a 10 Mbps shared LAN protocol to a multi-Gbps global service.

Brief Description about VLPS and MPLS

Historically, since 1980s, Ethernet has evolved from a Local Area Network (LAN) protocol running at 10 Mbps over a shared coaxial cable to a latest networking technology running at speeds up to 10 Gbps over all manner of copper wire and optical fiber in networks extending worldwide. As the Ethernet popularity become larger, Service providers offer variety of carrier Ethernet service to extend these network beyond the ‘LAN’ boundary into Wider access network environment, metropolitan area network (MAN).

As the network growth further, Multi Protocol Label Switching (MPLS) has become a great player for enterprise client to perform network interconnect between branches. MPLS Layer 2 point-to-point is an option for those whom require huge bandwidth for their network. Dedicated line will be physically planted at the clients dedicated places get link each other.However, the limitation of this giant trunk is that the service cannot go for point-to-multipoint services. Whilst, for those require lower bandwidth at their large number of sites, they would go for MPLS layer 3 IPVPN , which normally operates as a partitioned private network constructed over a shared IP-based backbone that utilizes technologies to ensure privacy of data.

Nonetheless, due to mega growth today in Data and video sharing, Service provider start to offer new service could comply on the huge multi-point transfered content. Virtual Private LAN Service (VPLS) would be a great player for such of those requirement. VPLS is a type of layer 2 VPN. In a VPLS, the Ethernet LAN at each customer site is extended as far as the edge of the provider network. The provider network then emulates the function of a LAN switch or bridge to connect all of the customer LANs to create a single bridged (Ethernet) LAN. One of the main differences between a VPLS and a MPLS point-to-point service is that the VPLS provides a point-to-multipoint service at layer 2.

VPLS has significant advantages for both service providers and customers. Service providers benefit because they can generate additional revenues by offering a new Ethernet service with flexible bandwidth and sophisticated service level agreements (SLAs). VPLS is also simpler and more cost effective to operate than a traditional service. Customers benefit because they can connect all of their sites to an Ethernet VPN that provides a secure, high speed and homogenous network. Moreover, VPLS provides a logical next step in the continuing evolution of Ethernet from a 10 Mbps shared LAN protocol to a multi-Gbps global service.