![]() (the content ID is the number at the end of the workshop mod URL). Steam Won't Download Workshop Content Rocket League recently transitioned into an Epic Games free to play exclusive to bring in new players.Deleting Your Content From the Steam Workshop Should you decide that you would like to remove some or all of your content from the Steam Workshop, this process is also quite simple.The post How to use Rocket League Steam Workshop maps in the Epic Games Store version appeared first on Gamepur.Steam will default to updating games automatically as content is released for them.Cheap games with instant email delivery: That's where most of the mods of all games are located. ![]() Finally, you go back to the content manager.
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![]() In-depth topics include memory technologies, fiber optics, modeling and simulation, design tools and the design process, CML controlled-impedance drivers, differential and mixed-mode S-parameters, and the emerging protocols and technologies of RapidIO and PCI-Express. This practical handbook covers every aspect of board-level design, starting with the basics of design trends, SerDes and bus technologies, and signal integrity. Only one book fills the need of both audiences ?Handbook of Digital Techniques for High-Speed Design, by electronics expert Tom Granberg. Senior and graduate-level engineering students need a similar resource, but with added introductory material and plenty of exercises. Still, I found the book pretty useful as many of these standards and components are still in use today.PRENTICE HALLCircuits, Devices and Systems Digital Techniques for High-Speed Design Tom Granberg High-speed digital design ? Complete, current, and practical Practicing engineers who work with high-speed digital design know that a thorough, fully up-to-date resource is crucial for keeping pace with rapidly changing technologies. Same can be said about the chapters on memory technologies, fibre, FPGA, etc. For one thing, the SerDes transceiver technology has vastly improved meanwhile (speeds of 12.5 Gbps are pretty common, not the typical 3.125 Gbps which was top-of-the-line a decade ago when the book was shipped). Forgot to mention an important thing - many of the quoted articles/white papers are around 2002-2004 so you should expect that a lot of the book's content is more or less out of date. To conclude, I really enjoyed reading the book but due to its shortcomings I gave it (reluctantly) four stars. For example on HSTL, what is the exact meaning of differential inputs given that the standard does not specify any differential requirements for the output? I think some serious compiling work is needed here, maybe in the next edition? Second, just copying from a standard leaves the reader confused about the stuff not covered in the standard. For example, the ac/dc distinction for HI/LO input is briefly (and confusingly) mentioned on SSTL_3 is briefly re-exposed on SSTL_2 and then properly re-exposed in SSTL_18. Some concepts are exposed insufficiently, some are exposed multiple times (even inconsistently). What I didn't like was the shameless copy&paste of large portions of text from the various sources (standards, etc). Third, I like the combination of standard expositions, and practical presentations of a few concrete components (such as TLK2501) Second, I like its exercises at the end of each chapter, which IMHO are necessary if you really want to remember something. One thing I like about the book is that it attempts to group together (probably for the first time) information that can be traditionally found in tons of very disparate application notes, standard descriptions, and even datasheets. The book does a decent job in exposing, contrasting and comparing dozens (hundreds?) of technologies that can make one dizzy just in enumerating them (GTL and variations, HSTL/SSTL, ECL and all its variations, CML, etc.). IMHO, this is an nice book that can guide the reader in the vast and confusing field of signaling standards, and not only that. Dedicated chapter on fiber optics and when to use. Details high-speed transmission line and parasitic effects, cabling, connectors, single-ended/differential terminations, lab test equipment, and intellectual property. Quantifies signal integrity using jitter and bit error rate measurements, eye diagrams, time-domain reflectometry and transmission. Discusses IBIS and SPICE modeling, simulations, design processes, and over 30 design automation tools. Emphasizes designing high-speed backplanes, driving cabling, bus architecture and topology. High-speed design rules are presented for both engineering design and printed circuit board layout. A quick-reference overview of each device family is also provided. Discusses highest-speed logic and interface families of devices, relevant applications, and device speeds versus how far signals transmit with good signal integrity. Several design examples at high Gigabit per second data rates are presented. This practical handbook fills in gaps that other textbooks on high-speed design don't discuss, covering every aspect of high-speed board-level digital design. |
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