|Platform||DockerHub Official Image Tests||BareMetal Tests||Ampere Docker Tests|
|Ampere CIDR Altra||1|
|Ampere CIDR Altra Max||1|
|OCI Ampere A1 Compute||1|
Ampere Computing's platforms are uniquely designed to meet the needs of the modern cloud native workload. DockerHub hosts a number of official images for a wide range of software that can be pulled and used anywhere docker is supported. These are a set of images hand selected by a dedicated team at Docker, Inc. More information can be found in the official documentation on Official Images on Docker Hub.
Haxe is an open-source high-level cross-platform programming language and compiler that can produce applications and source code, for many different computing platforms from one code-base. It is free and open-source software, released under the MIT License. The compiler, written in OCaml, is released under the GNU General Public License (GPL) version 2.
Haxe includes a set of features and a standard library supported across all platforms, like numeric data types, strings, arrays, maps, binary, reflection, math, http, file system and common file formats. Haxe also includes platform-specific APIs for each compiler target. Kha, OpenFL and Heaps.io are popular Haxe frameworks that enable creating multi-platform content from one codebase.
Haxe supports externs (definition files) that can contain type information of existing libraries to describe target-specific interaction in a type-safe manner, like C++ header files can describe the structure of existing object files. This enables it to use the values defined in the files as if they were statically typed Haxe entities. Besides externs, other solutions exist to access each platform's native capabilities.
Many popular IDEs and source code editors have support available for Haxe development. No particular development environment or tool set is officially recommended by the Haxe Foundation, although VSCode, IntelliJ IDEA and HaxeDevelop have the most support for Haxe development. The core functionalities of syntax highlighting, code completion, refactoring, debugging, etc. are available in various degrees.
This article uses material from the Wikipedia article Haxe, which is released under the Creative Commons Attribution-Share-Alike License 3.0.
Here at Ampere we've built an extensive infrastructure focused on Continuous Integration, Delivery, and Regression (called CIDR).
Our testing runs 24/7/365 in our regression infrastructure.
Results are categorized as either 'Verified' or 'Unverified'.
Test and build infrastructure can encounter complexities or unexpected speed bumps. Known incidents and their resolutions will be documented where applicable.
Date,Platform and OS details of verified test results are displayed on hover bubble.
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Ampere Altra Systems
Ampere Altra and Ampere Altra Max. These systems are flexible enough to meet the needs of any cloud deployment and come packed with Ampere's 80-core Altra or 128-core Altra Max processors
Equinix Metal, an on-demand digital infrastructure platform, has created Gen3 configs with Ampere Altra for common workloads which are available in minutes on bare metal
OCI Ampere A1
Ampere Altra and Oracle Cloud combine predictable performance, near-linear scaling, and secure architecture with the best price-performance in the market in the following shapes: