(WASM) es el est¨¢ndar W3C que provee capacidades para ejecutar c¨®digo en el navegador. Soportado por todos los principales navegadores y compatible con sus versiones anteriores, es un formato de compilaci¨®n binaria dise?ado para ejecutarse en el navegador a velocidades casi nativas. Abre el rango de idiomas que se puede utilizar para escribir funcionalidades de front-end, con enfoque inicial en C, C++ y Rust, y es tambi¨¦n un objetivo de . Cuando se ejecuta en el sandbox, puede interactuar con JavaScript y compartir los mismos permisos y modelo de seguridad. Portabilidad y seguridad son capacidades clave, que habilitar¨¢n la mayor¨ªa de las plataformas, incluyendo mobile y IoT.
is a big step forward in the capabilities of the browser as a code execution environment. Supported by all major browsers and backward compatible, it's a binary compilation format designed to run in the browser at near native speeds. It opens up the range of languages you can use to write front-end functionality, with early focus on C, C++ and Rust, and it's also an LLVM compilation target. When run in the sandbox, it can interact with JavaScript and shares the same permissions and security model. When used with , it also results in faster page initialization. Although it's still early days, this W3C standard is definitely one to start exploring.
is a big step forward in the capabilities of the browser as a code execution environment. Supported by all major browsers and backward compatible, it's a binary compilation format designed to run in the browser at near native speeds. It opens up the range of languages you can use to write front-end functionality, with early focus on C, C++ and Rust, and it's also an LLVM compilation target. When run in the sandbox, it can interact with JavaScript and shares the same permissions and security model. When used with , it also results in faster page initialization. Although it's still early days, this W3C standard is definitely one to start exploring.
