Khronos Boston Chapter leader Jim Susinno is holding a Chapter meetup in Cambridge MA this June 20th. Jim will introduce the Chapter community and share the latest updates about OpenGL and Vulkan as well as give a Khronos Group overview. The meetup is talking place in conjunction with @party.
The Khronos Group expects to announce later this year an OpenGL transmission format (glTF) that could act like the .mp3 or .jpg of graphic animations. The binary format aims to be neutral to any runtime environment and support at least 10:1 compression techniques already in the lab.
Boston Khronos Chapter invites you to a presentation and demonstration of realtime fluid simulation using OpenGL compute shaders. Microsoft will be hosting our second event of the year at One Cambridge Center on Thu Jun 4, 6-9PM. The event will feature an in-depth talk on OpenGL and GLSL in simulation applications and will include a live demo. After the talk, there will be time for demos and networking.
Big Nerd Ranch is offering two one-week intense introductions to OpenGL programming concentrating on iOS. Geometry specification, transforms, lighting and post-effects are covered. Brief introduction to advanced topics such as Oculus Rift and Vulkan. Registration is now open.
AMD unveiled their new AMD 7000 Series Accelerated Processing Units (APUs), AMD Radeon 300 and M300 Series Graphics, and AMD A-Series desktop APU updates. The AMD A-Series Desktop APUs offer Windows 10 readiness including DirectX 12 Multiengine and Multiadapter features. Combined with existing support for AMD FreeSync, AMD Mantle, HSA features heterogeneous queuing (hQ) and heterogeneous uniform memory access (hUMA) as enabled by OpenCL 2.0 applications, and OpenGL 4.4.
Red Hat's Christian Schaller posted a blog entry announcing their Khronos Membership. "The reason we are joining is because of all the important changes that are happening in Graphics and GPU compute these days and our wish to have more direct input of the direction of some of these technologies" wrote Christian.
Xiaomi introduced its flagship tablet Mi Pad last week. Xiaomi Mi Pad houses the new generation Nvidia Tegra K1 processor. Inside, it packs ARM Cortex A15 quad-core chipset which can clock 2.2GHz CPU cycles and is backed by GeForce Kepler (192 cores) graphics engine. It is 1.5 times more energy efficient than other mobile GPUs and supports OpenGL 4.4, OpenGL ES 3.1 and tessellation, says the company. Mi Pad runs on the tweaked Android OS (4.4.4 KitKat) with MIUI v6.0. Unlike other UIs we see in Samsung, HTC, Sony and LG devices, Xiaomi's MIUI has a feature-rich interface and is refreshing. It is more like a hybrid between Android and iOS, yet simple and visually appealing.
With the recent release of 347.88 drivers, NVIDIA adds official support for the NV_command_list extension. This extension has already been disclosed at last year’s SIGGRAPH ASIA and just days ago at the GPU Technology Conference 2015. The GTC presentation highlights the various benefits of the extension and the new possibilities it allows. Its primary goal is to allow current OpenGL applications to leverage the hardware to its full degree by providing the quickest possible path through the driver and benefit from future graphics API trends today. When adopting new concepts such as pipeline state objects and command buffers in current OpenGL applications, developers can also familiarize themselves with these modern software approaches and the implications and possibilities they have on their software architecture. However its feature set goes beyond what other graphics APIs are offering by enhancing the draw indirect mechanism with a flexible and extensible token-based command buffer approach. The spec can be found at the NVIDIA developer site and will be posted to the OpenGL registry soon. Sample code is provided.
Imagination Technologies announces a new area-optimized PowerVR GPU designed to drive high-quality graphics with full OpenGL ES 3.0 functionality into low-cost and space-constrained devices. The new PowerVR G6020 GPU has been specially designed for graphics efficiency in ultra-compact silicon area, obtaining better real device performance and compatibility without unnecessary overhead. It is the smallest member of the PowerVR Series6XE family, with four arithmetic logic unit (ALU) cores and a silicon footprint of 2.2mm2 (28nm process technology at 400MHz).