Presentation is loading. Please wait.

Presentation is loading. Please wait.

Remus: VM Replication Jeff Chase Duke University.

Published byJasper Douglas Modified over 8 years ago

Similar presentations

Presentation on theme: "Remus: VM Replication Jeff Chase Duke University."— Presentation transcript:

1 Remus: VM Replication Jeff Chase Duke University

2 Recall: virtual machines (VMs) Each guest VM runs a complete OS instance over an isolated “sliver” of host physical memory. Hypervisors support migration and suspend/resume. – Both operations require an atomic snapshot (checkpoint) of VM memory state and register contexts. – Capture modified pages and write them to snapshot. hypervisor (VMM) host guest guest kernel

3 Capturing modified pages How to do it? Recall the Address Translation Uses slides earlier.

4 Remus checkpoints Snapshot the VM, but don’t suspend it. – Snapshot periodically as it executes. – Snapshot concurrently: keep running while snap is in progress. Migrate the VM, but don’t start the remote copy. – Just load the snapshot on the remote host. – Transmit “live” incremental checkpoints over the network. – Update the remote snapshot/copy/instance in place. – Remote host is a warm standby or backup replica. All checkpoints are atomic: they capture a point in time.

5 Remus Checkpoints Remus divides time into epochs (~25ms) Performs a checkpoint at the end of each epoch 1. Suspend primary VM 2. Copy all state changes to a buffer in Domain 0 3. Resume primary VM 4. Send asynchronous message to backup containing state changes 5. Backup VM applies state changes 5 Periodic Checkpoints (Changes to VM State) Primary Server Domain 0 Backup Server Domain 0 Xen VMM Primary VM Xen VMM Backup VM [Ashraf Aboulnaga RemusDB]

6 Changes to VM State Transparent HA for DBMS RemusDB: efficient and transparent active/standby high availability for DBMS implemented in the virtualization layer Propagates all changes in VM state from primary to backup High availability with no code changes to the DBMS Completely transparent failover from primary to backup Failover to a warmed up backup server Backup Server DB DBMS Primary Server VM DB DBMS VM Primary Server 6 [Ashraf Aboulnaga RemusDB]

7 Remus

8 Remus Checkpoints After a failure, the backup resumes execution from the latest checkpoint Any work done by the primary during epoch C will be lost (unsafe) Remus provides a consistent view of execution to clients Any network packets sent during an epoch are buffered until the next checkpoint Guarantees that a client will see results only if they are based on safe execution Same principle is also applied to disk writes 8 [Ashraf Aboulnaga RemusDB]

9 Outbound packet buffering

10 Disk (FS) updates

11 Remus implementation

12 Tardigrade (NSDI-15)

13 Remus checkpoint latency

14 Remus overhead

15 Tardigrade

16

Download ppt "Remus: VM Replication Jeff Chase Duke University."

Similar presentations

Remus: High Availability via Asynchronous Virtual Machine Replication

Remus: High Availability via Asynchronous Virtual Machine Replication
Unmodified Device Driver Reuse and Improved System Dependability via Virtual Machines J. LeVasseur V. Uhlig J. Stoess S. G¨otz University of Karlsruhe,

Unmodified Device Driver Reuse and Improved System Dependability via Virtual Machines J. LeVasseur V. Uhlig J. Stoess S. G¨otz University of Karlsruhe,
Virtualisation From the Bottom Up From storage to application.

Virtualisation From the Bottom Up From storage to application.
Consistency and Replication Chapter 7 Part II Replica Management & Consistency Protocols.

Consistency and Replication Chapter 7 Part II Replica Management & Consistency Protocols.
XEN AND THE ART OF VIRTUALIZATION Paul Barham, Boris Dragovic, Keir Fraser, Steven Hand, Tim Harris, Alex Ho, Rolf Neugebauer, lan Pratt, Andrew Warfield.

XEN AND THE ART OF VIRTUALIZATION Paul Barham, Boris Dragovic, Keir Fraser, Steven Hand, Tim Harris, Alex Ho, Rolf Neugebauer, lan Pratt, Andrew Warfield.
Bart Miller. Outline Definition and goals Paravirtualization System Architecture The Virtual Machine Interface Memory Management CPU Device I/O Network,

Bart Miller. Outline Definition and goals Paravirtualization System Architecture The Virtual Machine Interface Memory Management CPU Device I/O Network,
Replication and Consistency (2). Reference r Replication in the Harp File System, Barbara Liskov, Sanjay Ghemawat, Robert Gruber, Paul Johnson, Liuba.

Replication and Consistency (2). Reference r Replication in the Harp File System, Barbara Liskov, Sanjay Ghemawat, Robert Gruber, Paul Johnson, Liuba.
Memory-efficient Virtual Machine High Availability Karen Kai-Yuan Hou Prof. Kang G. Shin University of Michigan Mustafa Uysal (VMware) Arif Merchant (HP.

Memory-efficient Virtual Machine High Availability Karen Kai-Yuan Hou Prof. Kang G. Shin University of Michigan Mustafa Uysal (VMware) Arif Merchant (HP.
1 Cheriton School of Computer Science 2 Department of Computer Science RemusDB: Transparent High Availability for Database Systems Umar Farooq Minhas 1,

1 Cheriton School of Computer Science 2 Department of Computer Science RemusDB: Transparent High Availability for Database Systems Umar Farooq Minhas 1,
Acknowledgments University of Waterloo University of British Columbia

Acknowledgments University of Waterloo University of British Columbia
Database Systems on Virtual Machines: How Much Do We Lose? Kristin Travis March 2, 2011.

Database Systems on Virtual Machines: How Much Do We Lose? Kristin Travis March 2, 2011.
Towards High-Availability for IP Telephony using Virtual Machines Devdutt Patnaik, Ashish Bijlani and Vishal K Singh.

Towards High-Availability for IP Telephony using Virtual Machines Devdutt Patnaik, Ashish Bijlani and Vishal K Singh.
U NIVERSITY OF M ASSACHUSETTS, A MHERST Department of Computer Science Virtualization in Data Centers Prashant Shenoy

U NIVERSITY OF M ASSACHUSETTS, A MHERST Department of Computer Science Virtualization in Data Centers Prashant Shenoy
Remus: High Availability via Asynchronous Virtual Machine Replication.

Remus: High Availability via Asynchronous Virtual Machine Replication.
Module – 11 Local Replication

Module – 11 Local Replication
16: Distributed Systems1 DISTRIBUTED SYSTEM STRUCTURES NETWORK OPERATING SYSTEMS The users are aware of the physical structure of the network. Each site.

16: Distributed Systems1 DISTRIBUTED SYSTEM STRUCTURES NETWORK OPERATING SYSTEMS The users are aware of the physical structure of the network. Each site.
November 1, 2004Introduction to Computer Security ©2004 Matt Bishop Slide #29-1 Chapter 33: Virtual Machines Virtual Machine Structure Virtual Machine.

November 1, 2004Introduction to Computer Security ©2004 Matt Bishop Slide #29-1 Chapter 33: Virtual Machines Virtual Machine Structure Virtual Machine.
Virtualization for Cloud Computing

Virtualization for Cloud Computing
VIRTUALISATION OF HADOOP CLUSTERS Dr G Sudha Sadasivam Assistant Professor Department of CSE PSGCT.

VIRTUALISATION OF HADOOP CLUSTERS Dr G Sudha Sadasivam Assistant Professor Department of CSE PSGCT.
MULTICOMPUTER 1. MULTICOMPUTER, YANG DIPELAJARI Multiprocessors vs multicomputers Interconnection topologies Switching schemes Communication with messages.

MULTICOMPUTER 1. MULTICOMPUTER, YANG DIPELAJARI Multiprocessors vs multicomputers Interconnection topologies Switching schemes Communication with messages.

Similar presentations

Ads by Google