Avi Kivity

Avi Kivity
Born	1970
Alma mater	Technion - Israel Institute of Technology
Occupation(s)	Co-founder, CTO, Software engineer
Employer	ScyllaDB
Known for	Kernel-based_Virtual_Machine, ScyllaDB

Avi Kivity (Hebrew: אבי קויתי) is a software engineer who created the Kernel-based Virtual Machine (KVM) hypervisor underlying many production clouds.^[1][2] Following his work on KVM, Kivity developed the Seastar framework and the ScyllaDB database.^[2][3] He co-founded the company ScyllaDB with Dor Laor; Kivity is CTO and an active project contributor.^[2]

Kivity began the development of KVM at Qumranet in 2006.^[4] After Red Hat acquired Qumranet in 2008, Kivity joined Red Hat and continued as the lead developer and maintainer of KVM.^[4][5]

After leaving Red Hat in 2012, Kivity co-founded a company called Cloudius Systems with Dor Laor.^[2] Cloudius developed the OSv operating system for the cloud.^[6] While at Cloudius, Kivity created the Seastar framework, an open-source (Apache 2.0 licensed) C++ framework for I/O intensive asynchronous computing.^[2] Seastar later became the foundation for high performance distributed systems such as ScyllaDB, Redpanda, and Ceph.^[7]

In mid-2014, Cloudius Systems was renamed to ScyllaDB, after its main product which is used for high-throughput database workloads that require low latencies. (Forbes) Kivity serves as the company's chief technology officer and contributes to the source code development of ScyllaDB as well as Seastar.^[8]

Kivity has been granted patents for technologies implemented in KVM and ScyllaDB ^[9]

• Asynchronous input/output (I/O) using alternate stack switching in kernel space (8850443)
• Delivery of events from a virtual machine to host CPU using memory monitoring instructions (9256455)
• Delivery of events from a virtual machine to a thread executable by multiple host CPUs using memory monitoring instructions (9489228)
• CPU using memory monitoring instructions (9256455)]
• Delivery of events from a virtual machine to a thread executable by multiple host CPUs using memory monitoring instructions (9489228)
• Detection of guest disk cache (9354916)
• Event signaling in virtualized systems (9830286)
• Heat-based load balancing (11157561)
• Injecting interrupts in virtualized computer systems (9235538)
• Interprocess communication (9075795)
• Managing device access using an address hint (9575787)
• Mechanism for automatic adjustment of virtual machine storage (8244956)
• Mechanism for memory state restoration of virtual machine (VM)-controlled peripherals at a destination host machine during migration of the VM (8356120)
• Mechanism for out-of-synch virtual machine memory management optimization (8560758)
• Memory change tracking during migration of virtual machine (VM) with VM-controlled assigned peripherals (9104459)
• Memory state transfer of virtual machine-controlled peripherals during migrations of the virtual machine (8924965)
• MSI events using dynamic memory monitoring (10078603)
• On-demand hypervisor memory mapping (9342450)
• Optimistic interrupt affinity for devices (9003094)
• Optimization of operating system and virtual machine monitor memory management (10761957)
• Pessimistic interrupt affinity for devices (9201823)
• Policy enforcement by hypervisor paravirtualized ring copying (9904564)
• Virtual machine wakeup using a memory monitoring instruction (9489223)

• Kernel-based Virtual Machine (KVM)
• ScyllaDB

• kvm: the Linux Virtual Machine Monitor (Proceedings of the Linux Symposium, 2007)
• Keynote on KVM progress (Red Hat, KVM Forum, 2011)
• OSv— Optimizing the Operating System for Virtual Machines (Proceedings of USENIX ATC ’14, 2014)
• ScyllaDB Optimizes Database Architecture to Maximize Hardware Performance (IEEE Software, 2019)
• Building efficient I/O intensive applications with Seastar (Core C++, 2019)
• No-Compromise Performance (Carnegie Mellon University Database Group, 2019)
• How a Database Looks from a Disk’s Perspective (P99 CONF, 2022)