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Page 10 The Aureal Vortex SQ is the premier 3D audio for PC gaming and music: • Powered by the revolutionary Aureal Vortex 2 audio accelerator, named “Hardware of the Year” by Computer Gaming World. • Accelerates Aureal’s A3D positional audio, with geometry-based Aureal . Aureal Vortex2 SQ sound card overview and full product specs on CNET. May 24, · Here, have a listen to Phil’s Vortex 2 DOS recordings: Aureal AU PCI FM Synthesis. Then compare with my Fortemedia FM recordings: Fortemedia FM PCI FM Synthesis. Neither is genuine OPL3 FM but the former is complete garbage compared to the latter, and they are both cards that work rather well in DOS.
Aureal vortex.Aureal Semiconductor – Vogons Wiki
Page 10 The Aureal Vortex SQ is the premier 3D audio for PC gaming and music: • Powered by the revolutionary Aureal Vortex 2 audio accelerator, named “Hardware of the Year” by Computer Gaming World. • Accelerates Aureal’s A3D positional audio, with geometry-based Aureal . Sep 26, · The Aureal Vortex 2 PCI Sound Card has very good DOS compatibility and works great in machines without ISA slots. In this video we are testing a bunch of DOS. Jan 15, · This video will give you a taste of what A3D on a Aureal Vortex 2 sound cards sounds to be listened to with headphones and make sure you disable a.
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MIT and Texas Instruments intend to reduce the power consumption of microcircuits by an order of magnitude
Researchers at Massachusetts Institute of Technology (MIT) and Texas Instruments (TI) Ready to Unveil New Integrated Circuit Development for Portable Electronics. It is alleged that it will increase the energy efficiency of chips tenfold compared to existing samples. In other words, cell phones, implantable medical devices and sensors will be able to run significantly more on batteries. The development report is included in the program of the International Solid-State Circuits Conference (ISSCC).
The researchers used the widely used TI MSP430 microcontroller as a guinea pig. The key to increasing the energy efficiency of the microcircuit was the search for techniques that could ensure the operability of its constituent circuits at a much lower than usual supply voltage. Modern microcontrollers operate in this class at a voltage of about 1 V, and the prototype created by the project participants operates at a voltage of 0.3 V.
Lowering the supply voltage is not as simple a task as it might seem at first glance, since many years of development in the field of semiconductor microcircuits have been aimed at optimizing their operation at higher voltage levels. Memory circuits and logic blocks had to be redesigned to operate at reduced voltage. It is noteworthy that the voltage-reducing converter is integrated into the controller itself, which, according to the project participants, is much more efficient than using a separate microcircuit. One of the most difficult tasks was to overcome the influence of the scatter of parameters characteristic of a typical technological process of manufacturing microcircuits. With a reduced supply voltage, the effect of this spread must be taken into account.
So far, the created microcircuit is nothing more than a test of the found approaches to solving the problem. Commercial products expected in the next five years.
Source: Texas Instruments