The VHPC program committee solicits original, high-quality submissions related to virtualization across the entire software stack with a special focus on the intersection of HPC and the cloud. Topics include, but are not limited to:

• Virtualization in supercomputing environments, HPC clusters, HPC in the cloud and grids
• OS-level virtualization and containers (LXC, Docker, rkt, Singularity, Shifter, ia)
• Lightweight/specialized operating systems in conjunction with virtual machines
• Novel unikernels and use cases for virtualized HPC environments
• Performance improvements for or driven by unikernels
• Tool support for unikernels: configuration/build environments, debuggers, profilers
• Hypervisor extensions to mitigate side-channel attacks
• ([micro-]archiveectural timing attacks, privilege escalation)
• VM & Container trust and security
• Containers inside VMs with hypervisor isolation
• GPU virtualization virtualization
• Approaches to GPGPU dynamic including API remoting and hypervisor abstraction
• Optimizations of virtual machine monitor platforms and hypervisors
• Hypervisor support for heterogenous resources (GPUs, co-processors, FPGAs, etc.)
• Virtualization support for emerging memory technologies
• Virtualization in enterprise HPC and microvisors
• Software defined networks and network virtualization
• Management, deployment of virtualized environments and orchestration (Kubernetes ia)
• Workflow-pipeline container-based composability
• Checkpointing facilitation featuring containers and VMs
• Emerging topics including multi-kernel approaches and NUMA in hypervisors
• Operating MPI in containers/VMs and Unikernels
• Virtualization in data intensive computing (big data) - HPC convergence
• Adaptation of HPC technologies in the cloud (high performance networks, RDMA, etc.)
• Performance measurement, modelling and monitoring of virtualized/cloud workloads
• Latency-and jitter sensitive workloads in virtualized/containerized environments
• I/O virtualization (including applications, SR-IOV, ia)
• Hybrid local facility + cloud compute and based storage systems, cloudbursting
• FPGA and many-core cache virtualization
• Job scheduling/control/policy and container placement in virtualized environments
• Cloud reliability, fault-tolerance and high-availability
• QoS and SLA in virtualized environments
• IaaS platforms, cloud frameworks and APIs
• Energy-efficient and power-aware virtualization
• Configuration management tools for containers (including in OpenStack, Ansible, ia)
• ARM-based hypervisors, ARM virtualization extensions