Ac 4 companion app
The perfect companion for the pirates of Assassin’s Creed.Assassin’s Creed 4’s companion app detailed | Shacknews
Apr 21, · The Assassin’s Creed: Unity companion app was an application developed by Ubisoft for Android, iOS, Windows Phone devices and Windows 8, allowing players to view maps and databases, as well as unlock currency, collectibles, weapons, and an outfit for Assassin’s Creed: Unity. As of 19 February , the app is no longer available for download. Sep 26, · While the AC4 companion app may largely serve as an interactive map, it also gives persistent access to the fleet metagame. You can access your fleet and send it Author: Andrew Yoon. Jan 09, · Sadly, they won’t do anything to bring back Companion app for AC4. If anyone still have the app, they can still use it! And, to anyone still have the app, either AppStore or Play Store.
Ac 4 companion app.Assassin’s Creed: Unity companion app | Assassin’s Creed Wiki | Fandom
Jan 09, · Sadly, they won’t do anything to bring back Companion app for AC4. If anyone still have the app, they can still use it! And, to anyone still have the app, either AppStore or Play Store. Apr 21, · The Assassin’s Creed: Unity companion app was an application developed by Ubisoft for Android, iOS, Windows Phone devices and Windows 8, allowing players to view maps and databases, as well as unlock currency, collectibles, weapons, and an outfit for Assassin’s Creed: Unity. As of 19 February , the app is no longer available for download. Jan 31, · The Assassin’s Creed 4 Companion App is now available for download for free on ITunes and Google Play (for tablets only). The app is MB and acts as a “Second Screen” for the console versions of.
Assassin’s Creed IV Companion
Assassin’s Creed® IV Companion App 2.2 Update
Assassin’s Creed® IV Companion for Android – APK Download
Assassin’s Creed® IV Companion
Assassin’s Creed IV Companion for Android – Download
Philips puts 90nm CMOS technology on stream
Philips Announces Mass Production of Three 90nm CMOS Semiconductors at Crolles2 Alliance in France. One of them is already being produced in the amount of more than a million pieces per month. The products are components of an integrated System-in-Package (SiP) for communications equipment. Thus, Philips demonstrates in practice the possibility of mass production using CMOS technology in compliance with 90nm standards, which allows to reduce the size and power consumption of elements, as well as keep their price at a competitive level.
The rapid transition from 90nm pilot production to mass production means Philips will soon begin transferring production technology to its partner TSMC. This follows from the terms of the agreement between the companies: the joint development program guarantees the “alignment [of technological] processes” CMOS used by Philips and TSMC in the production of 90 nm.
It is no coincidence that Crolles2 chose Philips products for mass production at 90nm, which are components of one-box solutions for Bluetooth and wireless networks. The fact is that in the manufacture of single-chip systems (System-on-Chip, SoC) of a similar purpose using the technology of older processes, manufacturers often face their limitations caused by the need to manufacture the entire chip (analog and digital parts, RF components, memory) in one process. In turn, the separate fabrication of SiP components provides the benefits of optimizing each component in terms of size, cost and power consumption. An example is the Philips solution for IEEE 802.11g ? single-body system BGW211, which has the lowest power consumption among analogs.
Although the 90nm CMOS process is used primarily for digital processing circuits today, options for products that perform other functions, such as on-board non-volatile memory and RF circuits, are just around the corner. Several experimental chips and a dozen new products are already in development. Following the introduction of the aforementioned 90nm CMOS process at the Crolles2 factory, Philips plans to master the production of 90nm non-volatile Flash / EEPROM memory and the production of RF circuits using RFCMOS technology.