In my last column, I looked at the challenges facing security teams today and, in particular, the need for more intelligent cybersecurity solutions, more powerful cybersecurity appliances and faster response to security incidents. We also looked at how reconfigurable computing solutions are addressing the need for more powerful appliances and enabling faster response to security incidents. In part 2, we will dive deeper into the latest developments in enabling more intelligent and comprehensive cyber security solutions and how reconfigurable computing can make a difference.To read this article in full, please click here
In my last column, I looked at the challenges facing security teams today and, in particular, the need for more intelligent cybersecurity solutions, more powerful cybersecurity appliances and faster response to security incidents. We also looked at how reconfigurable computing solutions are addressing the need for more powerful appliances and enabling faster response to security incidents. In part 2, we will dive deeper into the latest developments in enabling more intelligent and comprehensive cyber security solutions and how reconfigurable computing can make a difference.To read this article in full, please click here
The reality for security teams today is that they are facing challenges on multiple fronts. The number of security breaches is increasing, which means the number of security alerts to be examined each day is increasing. The attacks are becoming more sophisticated and multi-dimensional. The number of cybersecurity solutions available continues to grow, which requires time and effort to understand. The amount of data in the network is snowballing, which means the cybersecurity infrastructure needs to be constantly updated to keep up. What’s worse is that all this is happening in the midst of new networking paradigms related to cloud, virtualization and software-defined data centers.To read this article in full, please click here
The reality for security teams today is that they are facing challenges on multiple fronts. The number of security breaches is increasing, which means the number of security alerts to be examined each day is increasing. The attacks are becoming more sophisticated and multi-dimensional. The number of cybersecurity solutions available continues to grow, which requires time and effort to understand. The amount of data in the network is snowballing, which means the cybersecurity infrastructure needs to be constantly updated to keep up. What’s worse is that all this is happening in the midst of new networking paradigms related to cloud, virtualization and software-defined data centers.To read this article in full, please click here
The reality for security teams today is that they are facing challenges on multiple fronts. The number of security breaches is increasing, which means the number of security alerts to be examined each day is increasing. The attacks are becoming more sophisticated and multi-dimensional. The number of cybersecurity solutions available continues to grow, which requires time and effort to understand. The amount of data in the network is snowballing, which means the cybersecurity infrastructure needs to be constantly updated to keep up. What’s worse is that all this is happening in the midst of new networking paradigms related to cloud, virtualization and software-defined data centers.To read this article in full, please click here
In my last column, I wrote about how the standard computing platform is being reimagined by reconfigurable computing and how hyper-scale cloud companies are leading the way with the use of SmartNICs and field-programmable gate arrays (FPGAs). Now, let’s look at why FPGAs are so powerful in this context, the major challenge of working with FPGAs, and how vendors and companies are addressing the challenge.Why FPGAs?
What is it about FPGAs that makes them so different and yet so powerful compared to CPUs? One of the main reasons is that they are completely reconfigurable. Unlike ASICs, such as CPUs, the logic in the FPGA is not static but can be rearranged to support whatever workload you want to support. With an ASIC, you need to commit to a certain feature set up front, as this cannot be changed once the chip is produced. With an FPGA, you need to commit to the capabilities that the FPGA will provide with respect to available logic gates and Look-Up Tables (or LUTs), which are the tables that define how logic gates are combined to support a given function. But, what the FPGA does is entirely up to the FPGA solution developer Continue reading
In my last column, I wrote about how the standard computing platform is being reimagined by reconfigurable computing and how hyper-scale cloud companies are leading the way with the use of SmartNICs and field-programmable gate arrays (FPGAs). Now, let’s look at why FPGAs are so powerful in this context, the major challenge of working with FPGAs, and how vendors and companies are addressing the challenge.Why FPGAs?
What is it about FPGAs that makes them so different and yet so powerful compared to CPUs? One of the main reasons is that they are completely reconfigurable. Unlike ASICs, such as CPUs, the logic in the FPGA is not static but can be rearranged to support whatever workload you want to support. With an ASIC, you need to commit to a certain feature set up front, as this cannot be changed once the chip is produced. With an FPGA, you need to commit to the capabilities that the FPGA will provide with respect to available logic gates and Look-Up Tables (or LUTs), which are the tables that define how logic gates are combined to support a given function. But, what the FPGA does is entirely up to the FPGA solution developer Continue reading
reimagine /riːɪˈmadʒɪn/To reinterpret something imaginatively – in other words, in a creative and innovative way
The word “reimagine” is one of those words loved by marketing people and often loathed by engineers. But, in the context of this column, I think it is appropriate. The word “reimagine” should be close to every engineer’s heart, as it is at the essence of what we all love: solving problems in a creative and innovative way.Over the last decade or two, we have witnessed a great deal of creativity and innovation in how we build networks and deliver communication services. We have witnessed the rise of Ethernet and IP and how these two protocols laid the foundation for a common networking paradigm that we take for granted today. We have witnessed the rise of the IP-based internet and how every imaginable service has been dramatically affected. We have witnessed the rise of cloud computing and how this has, in a sense, completed the disruption that the introduction of the internet first promised.To read this article in full or to leave a comment, please click here
reimagine /riːɪˈmadʒɪn/To reinterpret something imaginatively – in other words, in a creative and innovative way
The word “reimagine” is one of those words loved by marketing people and often loathed by engineers. But, in the context of this column, I think it is appropriate. The word “reimagine” should be close to every engineer’s heart, as it is at the essence of what we all love: solving problems in a creative and innovative way.Over the last decade or two, we have witnessed a great deal of creativity and innovation in how we build networks and deliver communication services. We have witnessed the rise of Ethernet and IP and how these two protocols laid the foundation for a common networking paradigm that we take for granted today. We have witnessed the rise of the IP-based internet and how every imaginable service has been dramatically affected. We have witnessed the rise of cloud computing and how this has, in a sense, completed the disruption that the introduction of the internet first promised.To read this article in full or to leave a comment, please click here
reimagine /riːɪˈmadʒɪn/To reinterpret something imaginatively – in other words, in a creative and innovative way
The word “reimagine” is one of those words loved by marketing people and often loathed by engineers. But, in the context of this column, I think it is appropriate. The word “reimagine” should be close to every engineer’s heart, as it is at the essence of what we all love: solving problems in a creative and innovative way.Over the last decade or two, we have witnessed a great deal of creativity and innovation in how we build networks and deliver communication services. We have witnessed the rise of Ethernet and IP and how these two protocols laid the foundation for a common networking paradigm that we take for granted today. We have witnessed the rise of the IP-based internet and how every imaginable service has been dramatically affected. We have witnessed the rise of cloud computing and how this has, in a sense, completed the disruption that the introduction of the internet first promised.To read this article in full or to leave a comment, please click here