Moores Law turns 50 this coming week making this an opportune time to revisit Gordon Moores classic prediction, its elevation to near-divine pronouncement over the last 50 years, and the question of what, if anything, Moores Law can teach us about the future of computing. My colleague David Cardinal has already discussed thelaw itself,as well as the early evolution of the integrated circuit. To get a sense of where Moores Law might evolve in the future, we sat down with lithographer, instructor, and gentleman scientist, Dr. Christopher Mack. It might seem odd to talk about the future of Moores Law with a scientist who half-jokingly toasted its death just a year ago but one of the hallmarks of the Law is the way its been reinvented several times over the past fifty years.
IBMs System/360. Photo courtesy of Wikipedia
In arecent article, Dr. Mack argues that what we call Moores Law is actually at least three different laws. In the first era, dubbed Moores Law 1.0, the focus was on scaling up the number of components on a single chip. One simple example can be found in the evolution of the microprocessor itself. In the early 1980s, the vast majority of CPUs could only perform integer math on-die. If you wanted to perform floating point calculations (meaning calculations done using a decimal point), you had to buy a standalone floating point unit with its own pinout and motherboard socket (on compatible motherboards).
Some of you may also recall that in the early days of CPU cache, the cache in question was mounted to the motherboard (and sometimes upgradeable), not integrated into the CPU die. The term front-side bus (which ran from the northbridge controller to main memory and various peripherals) was originally contrasted with the back-side bus, which ran to the CPU cache from the CPU itself. The integration of these components on-die didnt always cut costs sometimes, the final product was actually more expensive but it vastly improved performance.
Digitals VAX 11/780. In many ways, the consummate CISC machine.
Moores Law 2.0 really came into its own in the mid-1990s. Moores Law always had a quieter partner, known as Dennard Scaling. Dennard Scaling stated that as transistors became smaller, their power density remained constant meaning that smaller transistors required less voltage and lower current. If Moores Law had stated we would be able to pack more transistors into the same area, Dennard Scaling ensured that those transistors would be cooler and draw less power. It was Dennard Scaling that broke in 2005, as Intel, AMD, and most other vendors turned away from emphasizing clock-based scaling, in favor of adding more CPU cores and improving single-threaded CPU performance.
From 2005 through 2014, Moores Law continued but the emphasis was on improving cost by driving down the expense of each additional transistor. Those transistors might not run more quickly than their predecessors, but they were often more power-efficient and less expensiveto build. As Dr. Mack points out, much of this improvement was driven by developments in lithography tools. As silicon wafer yields soared and manufacturing outputs surged, the total cost of manufacturing (per transistor) fell, while the total cost per square millimeter fell slowly or stayed about the same.
Moores Law scaling through the classic era.
Moores Law 3.0, then, is far more diverse and involves integrating functions and capabilities that havent historically been seen as part of CPU functions at all. Intels on-die voltage regulator, or the further integration of power circuitry to better improve CPU idle and load characteristics, could be thought of as one application of Moores Law 3.0 along with some of Nvidias deep learning functions, or its push to move camera processing technology over to the same core silicon that powers other areas of the core.
Dr. Mack points to ideas like nanorelays tiny, tiny moving switches that may not flip as quickly as digital logic, but dont leak power at all once flipped. Whether such technologies will be integrated into future chip designs is anyones guess, and the research being poured into them is more uncertain. Its entirely possible that a company might spend millions trying to better implement a design in digital logic, or adapt principles of semiconductors to other types of chip design, only to find the final product is just incrementally better than the previous part.
Theres an argument against this shift in usage that goes something like this: Moores Law, divorced from Gordon Moores actual words, isnt Moores Law at all. Changing the definition of Moores Law changes it from a trustworthy scientific statement into a mealy-mouthed marketing term. Such criticisms arent without merit. Like clock speed, core counts, transistor densities, and benchmark results, Moores Law, in any form, is subject to distortion. Im sympathetic to this argument when Ive called Moores Law dead in the past, Ive been referring to it.
One criticism of this perspective,however, is that the extra layers of fudge were added a long time ago. Gordon Moores original paper wasnt published in The New York Times for public consumption it was a technical document meant to predict the long-term trend of observed phenomena. Modern foundries remain focused on improving density and cutting the cost per transistor (as much as is possible). But the meaning of Moores Law quickly shifted from a simple statement about costs and density trend lines and was presented as an overarching trend that governed nearly every aspect of computing.
Even this overarching trend began to change in 2005, without any undue help from marketing departments. At first, both Intel and AMD focused on adding more cores, but this required additional support from software vendors and performance tools. More recently, both companies have focused on improving power efficiency and cutting idle power to better fit into mobile power envelopes. Intel and AMD have done amazing work pulling down idle power consumption at the platform level, but full load CPU power consumption has fallen much more slowly and maximum CPU temperatures have skyrocketed. We now tolerate full load temperatures of 80-95C, compared to max temperatures of 60-70C less than a decade ago. CPU manufacturers and foundries deserve credit for building chips that can tolerate these higher temperatures, but those changes were made because the Dennard Scaling that underlay what Dr. Mack calls Moores Law 2.0 had already failed.
Transistor scaling continued long after IPC and clock speed had essentially flatlined.
Even an engineering-minded person can appreciate that each shift in the definition of Moores Law accompanied a profound shift in the nature of cutting-edge compute capability. Moores Law 1.0 gave us the mainframe and the minicomputer. Moores Law 2.0s emphasis on per-transistor performance and cost scaling ushered in the era of the microcomputer in both its desktop and laptop incarnations. Moores Law 3.0, with its focus on platform-level costs and total system integration has given us the smartphone, the tablet, and the nascent wearables industry.
Twenty years ago, the pace of Moores Law stood for faster transistors and higher clock speeds. Now it serves as shorthand for better battery life, higher boost frequencies, quicker returns to idle (0W is, in some sense, the new 1GHz), sharper screens, thinner form factors, and, yes higher overall performance in some cases, albeit not as quickly as most of us would like. It endures as a concept because it stands for something much larger than the performance of a transistor or the electrical characteristics of a gate.
After 50 years, Moores Law has become cultural shorthand for innovation itself. When Intel, or Nvidia, or Samsung refer to Moores Law in this context, theyre referring to the continuous application of decades of knowledge and ingenuity across hundreds of products. Its a way of acknowledging the tremendous collaboration that continues to occur from the fab line to the living room, the result of painstaking research aimed to bring a platforms capabilities a little more in line with what users want. Is that marketing? You bet. But its not just marketing.
Moores Law is dead. Long live Moores Law.
Read the original:
Moore's Law is dead, long live Moore's Law - ExtremeTech
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