狠狠撸shows by User: blopeur
/
http://www.slideshare.net/images/logo.gif狠狠撸shows by User: blopeur
/
Wed, 12 Oct 2016 10:33:49 GMT狠狠撸Share feed for 狠狠撸shows by User: blopeurTLDK - FD.io Sept 2016
/slideshow/tldk-fdio-sept-2016/67054358
fdio-tldk-2016-09-26-161012103349 Transport layer development kit ( on top of DPDK by Intel)
Provide set of libraries for L4 protocol processing (UDP, TCP etc.) and VPP graph nodes, plugins, etc using those libraries to implement a host stack.
The FD.io TLDK project scope is:
The project scope includes implementing a set of libraries for L4 protocol processing (UDP, TCP etc.) for both IPv4 and IPv6.
The project scope includes creating VPP graph nodes, plugins etc using those libraries to implement a host stack.
The project scope includes such mechanisms (netlink agents, packaging, etc) necessary to make the resulting host stack easily usable by existing non-vpp aware software.]]>
Transport layer development kit ( on top of DPDK by Intel)
Provide set of libraries for L4 protocol processing (UDP, TCP etc.) and VPP graph nodes, plugins, etc using those libraries to implement a host stack.
The FD.io TLDK project scope is:
The project scope includes implementing a set of libraries for L4 protocol processing (UDP, TCP etc.) for both IPv4 and IPv6.
The project scope includes creating VPP graph nodes, plugins etc using those libraries to implement a host stack.
The project scope includes such mechanisms (netlink agents, packaging, etc) necessary to make the resulting host stack easily usable by existing non-vpp aware software.]]>
Wed, 12 Oct 2016 10:33:49 GMT/slideshow/tldk-fdio-sept-2016/67054358blopeur@slideshare.net(blopeur)TLDK - FD.io Sept 2016 blopeurTransport layer development kit ( on top of DPDK by Intel)
Provide set of libraries for L4 protocol processing (UDP, TCP etc.) and VPP graph nodes, plugins, etc using those libraries to implement a host stack.
The FD.io TLDK project scope is:
The project scope includes implementing a set of libraries for L4 protocol processing (UDP, TCP etc.) for both IPv4 and IPv6.
The project scope includes creating VPP graph nodes, plugins etc using those libraries to implement a host stack.
The project scope includes such mechanisms (netlink agents, packaging, etc) necessary to make the resulting host stack easily usable by existing non-vpp aware software.<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/fdio-tldk-2016-09-26-161012103349-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Transport layer development kit ( on top of DPDK by Intel)
Provide set of libraries for L4 protocol processing (UDP, TCP etc.) and VPP graph nodes, plugins, etc using those libraries to implement a host stack.
The FD.io TLDK project scope is:
The project scope includes implementing a set of libraries for L4 protocol processing (UDP, TCP etc.) for both IPv4 and IPv6.
The project scope includes creating VPP graph nodes, plugins etc using those libraries to implement a host stack.
The project scope includes such mechanisms (netlink agents, packaging, etc) necessary to make the resulting host stack easily usable by existing non-vpp aware software.
]]>
8303https://cdn.slidesharecdn.com/ss_thumbnails/fdio-tldk-2016-09-26-161012103349-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Persistent memory
/slideshow/persistent-memory/62757910
persistentmemory-160606071021 Persistent memory holds a lot of promise: what's not to like about vast amounts of directly-attached memory that remembers its contents over a power cycle? For some years we have been told that large persistent-memory arrays are coming; now it seems that they are about to arrive. In this lecture we will be covering the following:
What is Persistent Memory , The upcoming storage class memory (SCM)devices.
Difference between NVMe and SCM
How to use it and emulate it
Challenge : Durability / Consistency
Remote access
Implication for Next Generation Architecture ]]>
Persistent memory holds a lot of promise: what's not to like about vast amounts of directly-attached memory that remembers its contents over a power cycle? For some years we have been told that large persistent-memory arrays are coming; now it seems that they are about to arrive. In this lecture we will be covering the following:
What is Persistent Memory , The upcoming storage class memory (SCM)devices.
Difference between NVMe and SCM
How to use it and emulate it
Challenge : Durability / Consistency
Remote access
Implication for Next Generation Architecture ]]>
Mon, 06 Jun 2016 07:10:21 GMT/slideshow/persistent-memory/62757910blopeur@slideshare.net(blopeur)Persistent memoryblopeurPersistent memory holds a lot of promise: what's not to like about vast amounts of directly-attached memory that remembers its contents over a power cycle? For some years we have been told that large persistent-memory arrays are coming; now it seems that they are about to arrive. In this lecture we will be covering the following:
What is Persistent Memory , The upcoming storage class memory (SCM)devices.
Difference between NVMe and SCM
How to use it and emulate it
Challenge : Durability / Consistency
Remote access
Implication for Next Generation Architecture <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/persistentmemory-160606071021-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Persistent memory holds a lot of promise: what's not to like about vast amounts of directly-attached memory that remembers its contents over a power cycle? For some years we have been told that large persistent-memory arrays are coming; now it seems that they are about to arrive. In this lecture we will be covering the following:
What is Persistent Memory , The upcoming storage class memory (SCM)devices.
Difference between NVMe and SCM
How to use it and emulate it
Challenge : Durability / Consistency
Remote access
Implication for Next Generation Architecture
]]>
47426https://cdn.slidesharecdn.com/ss_thumbnails/dram-row-hammerkimtalkisca14-140711071208-phpapp02-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Enhancing Live Migration Process for CPU and/or memory intensive VMs running Enterprise application - KVM forum 2011
/slideshow/enhancing-live-migration-process-for-cpu-andor-memory-intensive-vms-running-enterprise-application-s/35497742
2011-forum-kvmhudzia-140604161705-phpapp01 ]]>
]]>
Wed, 04 Jun 2014 16:17:05 GMT/slideshow/enhancing-live-migration-process-for-cpu-andor-memory-intensive-vms-running-enterprise-application-s/35497742blopeur@slideshare.net(blopeur)Enhancing Live Migration Process for CPU and/or memory intensive VMs running Enterprise application - KVM forum 2011blopeur<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2011-forum-kvmhudzia-140604161705-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /><br>
]]>
9344https://cdn.slidesharecdn.com/ss_thumbnails/nvmw2014-extendingmainmemorywithflash-theoptimizedswapapproach1-140508093855-phpapp02-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Hana Memory Scale out using the hecatonchire Project
/slideshow/hana-memory-scale-out-using-the-hecatonchire-project/18636042
hanamemoryscaleouthecatonchirebenoithudzia-130411163529-phpapp01 This session will present a memory scale-out solution that liberates SAP HANA, or similar memory demanding enterprise applications, from the classical limitation of underlying physical servers. The solution relies on key enabling technology developed within SAP. It allows applications or hypervisors to go beyond the boundaries of the underlying hardware, and effectively enables a fluid transformation from commodity sized physical nodes to very large virtual instances, in order to meet the rapidly growing demand of memory intensive applications. ]]>
This session will present a memory scale-out solution that liberates SAP HANA, or similar memory demanding enterprise applications, from the classical limitation of underlying physical servers. The solution relies on key enabling technology developed within SAP. It allows applications or hypervisors to go beyond the boundaries of the underlying hardware, and effectively enables a fluid transformation from commodity sized physical nodes to very large virtual instances, in order to meet the rapidly growing demand of memory intensive applications. ]]>
Thu, 11 Apr 2013 16:35:29 GMT/slideshow/hana-memory-scale-out-using-the-hecatonchire-project/18636042blopeur@slideshare.net(blopeur)Hana Memory Scale out using the hecatonchire ProjectblopeurThis session will present a memory scale-out solution that liberates SAP HANA, or similar memory demanding enterprise applications, from the classical limitation of underlying physical servers. The solution relies on key enabling technology developed within SAP. It allows applications or hypervisors to go beyond the boundaries of the underlying hardware, and effectively enables a fluid transformation from commodity sized physical nodes to very large virtual instances, in order to meet the rapidly growing demand of memory intensive applications. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/hanamemoryscaleouthecatonchirebenoithudzia-130411163529-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> This session will present a memory scale-out solution that liberates SAP HANA, or similar memory demanding enterprise applications, from the classical limitation of underlying physical servers. The solution relies on key enabling technology developed within SAP. It allows applications or hypervisors to go beyond the boundaries of the underlying hardware, and effectively enables a fluid transformation from commodity sized physical nodes to very large virtual instances, in order to meet the rapidly growing demand of memory intensive applications.
]]>
24655https://cdn.slidesharecdn.com/ss_thumbnails/hanamemoryscaleouthecatonchirebenoithudzia-130411163529-phpapp01-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Lego Cloud SAP Virtualization Week 2012
/slideshow/lego-cloud-sap-virtualization-week-2012/15935188
trnd04-130110103445-phpapp01 This session will demonstrate that by extending KVM we can deliver none-disruptively the next level of IaaS platform modularization. We will first show instantaneous live migration of VM. Then we will introduce the memory aggregation concept, and finally how to achieve full operational flexibility by dis-aggregating the datacenter resource to its core elements. ]]>
This session will demonstrate that by extending KVM we can deliver none-disruptively the next level of IaaS platform modularization. We will first show instantaneous live migration of VM. Then we will introduce the memory aggregation concept, and finally how to achieve full operational flexibility by dis-aggregating the datacenter resource to its core elements. ]]>
Thu, 10 Jan 2013 10:34:45 GMT/slideshow/lego-cloud-sap-virtualization-week-2012/15935188blopeur@slideshare.net(blopeur)Lego Cloud SAP Virtualization Week 2012blopeurThis session will demonstrate that by extending KVM we can deliver none-disruptively the next level of IaaS platform modularization. We will first show instantaneous live migration of VM. Then we will introduce the memory aggregation concept, and finally how to achieve full operational flexibility by dis-aggregating the datacenter resource to its core elements. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/trnd04-130110103445-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> This session will demonstrate that by extending KVM we can deliver none-disruptively the next level of IaaS platform modularization. We will first show instantaneous live migration of VM. Then we will introduce the memory aggregation concept, and finally how to achieve full operational flexibility by dis-aggregating the datacenter resource to its core elements.
]]>
19946https://cdn.slidesharecdn.com/ss_thumbnails/trnd04-130110103445-phpapp01-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Hecatonchire kvm forum_2012_benoit_hudzia
/slideshow/hecatonchire-kvm-forum2012benoithudzia/15247222
hecatonchirekvmforum2012benoithudzia-121119083155-phpapp01 Modularizing and aggregating physical resources in a datacenter depends not only on low-latency networking, but also on software techniques to deliver such capabilities. In the session we will present some practical features and results of our work, as well as discuss implementation details. Among these features are delivering high-performance, transparent, and partially fault tolerant memory aggregation; and reducing the downtime of live migration using post-copy implementations.
We will present and discuss methods of transparently integrating with the MMU at the OS level, without impacting a running VM;
We will then introfuce the Hecatonchire project ( http://www.hecatonchire.com ) which aim at the disaggregation of datacenter resources and enable true utility computing.
]]>
Modularizing and aggregating physical resources in a datacenter depends not only on low-latency networking, but also on software techniques to deliver such capabilities. In the session we will present some practical features and results of our work, as well as discuss implementation details. Among these features are delivering high-performance, transparent, and partially fault tolerant memory aggregation; and reducing the downtime of live migration using post-copy implementations.
We will present and discuss methods of transparently integrating with the MMU at the OS level, without impacting a running VM;
We will then introfuce the Hecatonchire project ( http://www.hecatonchire.com ) which aim at the disaggregation of datacenter resources and enable true utility computing.
]]>
Mon, 19 Nov 2012 08:31:53 GMT/slideshow/hecatonchire-kvm-forum2012benoithudzia/15247222blopeur@slideshare.net(blopeur)Hecatonchire kvm forum_2012_benoit_hudziablopeurModularizing and aggregating physical resources in a datacenter depends not only on low-latency networking, but also on software techniques to deliver such capabilities. In the session we will present some practical features and results of our work, as well as discuss implementation details. Among these features are delivering high-performance, transparent, and partially fault tolerant memory aggregation; and reducing the downtime of live migration using post-copy implementations.
We will present and discuss methods of transparently integrating with the MMU at the OS level, without impacting a running VM;
We will then introfuce the Hecatonchire project ( http://www.hecatonchire.com ) which aim at the disaggregation of datacenter resources and enable true utility computing.
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/hecatonchirekvmforum2012benoithudzia-121119083155-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Modularizing and aggregating physical resources in a datacenter depends not only on low-latency networking, but also on software techniques to deliver such capabilities. In the session we will present some practical features and results of our work, as well as discuss implementation details. Among these features are delivering high-performance, transparent, and partially fault tolerant memory aggregation; and reducing the downtime of live migration using post-copy implementations.
We will present and discuss methods of transparently integrating with the MMU at the OS level, without impacting a running VM;
We will then introfuce the Hecatonchire project ( http://www.hecatonchire.com ) which aim at the disaggregation of datacenter resources and enable true utility computing.