Dalvik is a discontinued process virtual machine (VM) in the Android operating system that executes applications written for Android. (Dalvik bytecode format is still used as a distribution format, but no longer at runtime in newer Android versions.) Dalvik was an integral part of the Android software stack in the (now unsupported) Android versions 4.4 "KitKat" and earlier, which were commonly used on mobile devices such as mobile phones and tablet computers, and more in some devices such as smart TVs and wearables. Dalvik is open-source software, originally written by Dan Bornstein, who named it after the fishing village of Dalvík in Eyjafjörður, Iceland.

Programs for Android are commonly written in Java and compiled to bytecode for the Java Virtual Machine, which is then translated to Dalvik bytecode and stored in .dex (Dalvik EXecutable) and .odex (Optimized Dalvik EXecutable) files; related terms odex and de-odex are associated with respective bytecode conversions. The compact Dalvik Executable format is designed for systems that are constrained in terms of memory and processor speed.

The successor of Dalvik is Android Runtime (ART), which uses the same bytecode and .dex files (but not .odex files), with the succession aiming at performance improvements. The new runtime environment was included for the first time in Android 4.4 "KitKat" as a technology preview, and replaced Dalvik entirely in later versions; Android 5.0 "Lollipop" is the first version in which ART is the only included runtime.

Dalvik, named after a town in Iceland by its creator Dan Bornstein, was designed for embedded devices with very low RAM and CPU to run Java code, and eventually support C++ for "heavy-duty apps" and JavaScript for "light-weight widget-like apps" as first-class languages with Java catering to the rest. Android Native Development Kit which eventually paved way for C++ support has existed since Dalvik's first public release. According to Bornstein, Memory-mapping executables and libraries across multiple process and building a faster interpreter with register-based semantics drove much of the early design of the byte-aligned instruction set and the Virtual Machine. Experience working with J2ME on Sidekick at Danger, Bornstein found it was too stripped down and fairly constrained for Android. While improvements such as Isolates as then planned by Sun made process isolation infeasible as it broke Android's intra-Device security model. For Dalvik VM, Bornstein particularly took inspiration from The Case for Register Machines authored by Brian Davis et al of Trinity College, Dublin.

Dalvik was open sourced under Apache License v2 as rest of the Android Open Source Project in 2008.

Unlike Java Virtual Machines, which are stack machines, the Dalvik VM uses a register-based architecture that requires fewer, typically more complex, virtual machine instructions. Dalvik programs are written in Java using the Android application programming interface (API), compiled to Java bytecode, and converted to Dalvik instructions as necessary.

A tool called dx is used to convert Java .class files into the .dex format. Multiple classes are included in a single .dex file. Duplicate strings and other constants used in multiple class files are included only once in the .dex output to conserve space. Java bytecode is also converted into an alternative instruction set used by the Dalvik VM. An uncompressed .dex file is typically a few percent smaller in size than a compressed Java archive (JAR) derived from the same .class files.

The Dalvik executables may be modified again when installed onto a mobile device. In order to gain further optimizations, byte order may be swapped in certain data, simple data structures and function libraries may be linked inline, and empty class objects may be short-circuited, for example.