Piush K. Sinha scite author profile

When considering a hypervisor, cloud providers must balance conflicting requirements for simple, secure code bases with more complex, feature-filled offerings. This paper introduces Dichotomy, a new two-layer cloud architecture in which the roles of the hypervisor are split. The cloud provider runs a lean hyperplexor that has the sole task of multiplexing hardware and running more substantial hypervisors (called featurevisors) that implement features. Cloud users choose featurevisors from a selection of lightlymodified hypervisors potentially offered by third-parties in an "as-a-service" model for each VM. Rather than running the featurevisor directly on the hyperplexor using nested virtualization, Dichotomy uses a new virtualization technique called ephemeral virtualization which efficiently (and repeatedly) transfers control of a VM between the hyperplexor and featurevisor using memory mapping techniques. Nesting overhead is only incurred when the VM is accessed by the featurevisor. We have implemented Dichotomy in KVM/QEMU and demonstrate average switching times of 80 ms, two to three orders of magnitude faster than live VM migration. We show that, for the featurevisor applications we evaluated, VMs hosted in Dichotomy deliver up to 12% better performance than those hosted on nested hypervisors, and continue to show benefit even when the featurevisor applications run as often as every 2.5 seconds.

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mWarp: Accelerating Intra-Host Live Container Migration via Memory Warping

Sinha

¹

,

Doddamani

²

,

Lü

³

et al. 2019

7

0

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Enabling Efficient Hypervisor-as-a-Service Clouds with Ephemeral Virtualization

Williams

¹

,

Yao-hui

²

,

Deshpande

³

et al. 2016

SIGPLAN Not.

0

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When considering a hypervisor, cloud providers must balance conflicting requirements for simple, secure code bases with more complex, feature-filled offerings. This paper introduces Dichotomy, a new two-layer cloud architecture in which the roles of the hypervisor are split. The cloud provider runs a lean hyperplexor that has the sole task of multiplexing hardware and running more substantial hypervisors (called featurevisors) that implement features. Cloud users choose featurevisors from a selection of lightlymodified hypervisors potentially offered by third-parties in an "as-a-service" model for each VM. Rather than running the featurevisor directly on the hyperplexor using nested virtualization, Dichotomy uses a new virtualization technique called ephemeral virtualization which efficiently (and repeatedly) transfers control of a VM between the hyperplexor and featurevisor using memory mapping techniques. Nesting overhead is only incurred when the VM is accessed by the featurevisor. We have implemented Dichotomy in KVM/QEMU and demonstrate average switching times of 80 ms, two to three orders of magnitude faster than live VM migration. We show that, for the featurevisor applications we evaluated, VMs hosted in Dichotomy deliver up to 12% better performance than those hosted on nested hypervisors, and continue to show benefit even when the featurevisor applications run as often as every 2.5 seconds.

show abstract

Piush K. Sinha

Fast and live hypervisor replacement

Enabling Efficient Hypervisor-as-a-Service Clouds with Ephemeral Virtualization

mWarp: Accelerating Intra-Host Live Container Migration via Memory Warping

Enabling Efficient Hypervisor-as-a-Service Clouds with Ephemeral Virtualization

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