drives Archives - usatoday24

The first hard drives in history were gigantic. Then a miracle happened: miniaturization

January 30, 2026 by usatoday24

Nowadays it is normal to have 32 or 64 GB of capacity on our mobile devices, and that capacity is usually multiplied by several orders of magnitude on our PCs and laptops. Storage technology has advanced incredibly in all these years, and to appreciate this evolution it is not a bad idea to take a short trip to the past and see how decades ago hard drives were heavy and cumbersome monstrosities that also had very limited capacity and features. The first example of that evolution we have it in the IBM RAMAC 305a monster that appeared in 1956 and was capable of storing 5 MB thanks to a system with 50 24-inch “platters”. That device rotated at a speed of 600 revolutions per minute and generated such a quantity of heat that it was necessary to enclose it in a large “refrigerator” with two cooling systems. Another curious fact about this product is that IBM already thought about a subscription model to make it profitable: clients who wanted to use this product had to pay $3,200 per month at the time, which would be equivalent to almost $30,000 today with inflation. Miniaturization would still take years to reach an industry that was trying to advance especially in the area of storage capacity: customers demanded more capacity, and those 24 inch plates wereAs seen in the image, huge. In this case these models reached 10 MB capacity per disk. The giant of the time, IBM, dominated the sector for years, and in 1962 the company created the first “removable” drives. The IBM 1311 Disk Storage Drive made use of IBM 1316 “disk packs” that allowed the company’s customers to expand their needs to suit. From the 24 inches of the previous disks it went to 14 inches, with 2 Mbytes for each “pack”. The path to smallness Another of those storage devices It was UniDisc.a storage expansion that appeared in 1962 for the Univac 1004/1005 computers. That “flexible” disk similar to those used by IBM had a diameter of 14 inches and was capable of holding 2 Mbytes of information. The drive the disk was inserted into was about the size of a washing machine. At that time, several manufacturers tried to be leaders in a promising sector, and among them was Burroughs, a mainframe manufacturer that, for example, launched this unit of 250 MB in 1979. A true marvel that used, pay attention, regenerative braking: when it was turned off, the motor became a magnetic brake: otherwise the discs continued spinning for an average of 4 hours. A few years earlier IBM had already launched its new hard drive technology, the so-called “winchester“. The IBM 3340 drive had a smaller, lighter read/write head that had a design that allowed it to move across that surface at a tiny distance. Things would advance from that moment even more rapidly, especially in the field of miniaturization (more or less) and the capacity of units that, for example, in 1980 already reached the gigabyte with the IBM 3380 unit. From that year 1980 is also the Memorex Mark XIV “disk pack” in the header image that was advertised as an “error-free” system. It had a capacity of 80 MB and was intended for Memorex disk drives that were again the size of a washing machine. 5¼ units would soon give way to 3.5-inch oneswhich would arrive first from the Rodime company (with former Burroughs employees, by the way). Their devices were capable of storing 6.38 and 12.75 Mbytes and would start a real trend in the PC and laptop market. User needs continued to dictate smaller formats, and this led to 2.5-inch drives that are currently especially widespread due to their use in the solid state drive segment. The rest, as they say, is history: 3.5-inch drives are still widely used today, but that revolution would be followed a few years ago by that of solid state drives or SSD (especially in M.2 format) that have allowed us to achieve reading and writing speeds that were unthinkable just a decade ago. In the area of capacity and cost per gigabyte, yes, those traditional hard drives continue to be (for now) the kings of the market, but if we want examples of miniaturization, the 1 TB drives that SanDisk presented at CES seven years ago made things even better. And what remains. In Xataka | Sandisk has risen 1,000% in the stock market since the summer. Its advantage is called Kioxia In Xataka | The computers of the future have found an unexpected ally to store information: fungi

If the question was how Rare eeuu would get after China’s veto, the answer is: hard drives

April 22, 2025 by usatoday24

SSD units may have become the norm in our PCs and laptops, but traditional hard drives continue to have a huge specific weight. This type of storage supports have an additional advantage of which some companies want to take advantage of: they contain Rare earth. Recycling against Chinese restrictions. Last week Western Digital advertisement which has created an important hard -record recycling program. He has done it in collaboration with Microsoft and with specialized companies such as CMR (material critical rcycling) and Pedalpoint Recycling. Picaresque economy for the US. The recycling process will take place in factories located in the United States, and those materials would precisely be used in other manufacturing processes also in the North American country. It’s about A singular measure that is necessary before the difficulties that USA will now have to access Those materialsand it is an example of how the country – like others – will have to go to ingenious solutions to solve the problems derived from the commercial war with China. Hidden rare metals. The objective of this initiative is to obtain rare earth oxides containing disposses, neodymium and proseodimium. Along with these rare metals it is also possible to obtain aluminum, steel, gold, paladium and copper. Hard discs to Gogó. This type of storage support is used massively in large data centers used for example for cloud infrastructure, and their life cycles causes units to be discarded constantly to avoid data losses. WD states that they have already recovered 21.3 tons of hard drives, SSD units and trays in which they are usually encapsulated in those data centers. According to Financial Timeshard drives in data centers have a useful life between three and five years, and it is estimated that the amount of waste globally in this area reaches 75 million tons in 2030. Recycling seems to work. The company responsible highlight that they have managed to recycle 90% of those rare metals, and 80% for the rest of the materials that you want to recycle. A complex but effective process. The discs come from Microsoft data centers and are sent to Pedalpoint to be ordered and processed. The magnets and steel are sent to CMR, and this company makes use of a recycling process called “dissolution without acids” (ADR) which is the one that extracts rare earths. This technology uses a copper salts solution to create a selective leaching that produces 99.5% pure rare oxides. The company avoids aggressive chemicals that could damage these rare earths or adjacent materials, such as aluminum. And more sustainable. According to The study Of the Digital Western engineers, this recycling process produces 95% less greenhouse gases than the traditional mining of these rare and material earths. Recycling hard drives is increasingly interesting. WD’s announcement is striking, especially considering that Microsoft is also involved in that project. However, hard drives recycling has been an area in which some startups are focusing clearly. We talked recently about Hypromag and Cyclic Materialsand in both cases the objective is the same: extract rare earths with recycled hard drives, as WD does. There is Other options underwayof course. But. The collection of these rare earth metals through recycling processes is striking, but China has restricted the export of seven rare metalsand only one of them (Disposio) is commonly used in hard drives. Image | Wikimedia | Barez Omer In Xataka | The US will not be able to contain the technological development of China. Experts from the chips industry forecast it

A startup claims to have the weapon to end China’s monopoly on rare earths: hard drives

February 22, 2025 by usatoday24

In the technological era and Energy transition to renewables and the electric car In which we are, the Rare earth They have become the most valuable currency. This set of elements has become essential for many industries, but there is a problem: China dominates both mining and, above all, Rare Earth Metals Productionand he does not hesitate to use them as a throwing weapon in the Technological and Commercial War in which we are. While west Decide which are the next steps In the search for the gold of the 21st century, there are already those who work to obtain rare earth elements from wherever it is thanks to recycling. And that hard drive that has been in the drawer for years is a treasure. ‘Chrysistunity’. “Rare earth” is the name with which we call a group of 17 minerals that are used to manufacture components of electric car batteries, precision medical instruments, speakers or elements of wind turbines, among many other applications in virtually all sectors. Taking them out of the earth is not as much problem as their refining, since it is a process that does not get along with Western pollution restrictions. That is why we were delegating this task to China and, now, the Asian giant dominates practically 90% of production. So important are that the country usually uses the export of rare earth metals when it receives a new western commercial blow and even in the Ukraine War we have seen Trump condition US support to the supply of rare earth. But before each crisis, there is an opportunity. Old hard drives. In the absence of being able to produce them, why not get those elements through recycling? With the plastic we do not do it very well, but with other elements, and in the case of rare earths, it is something that can work. That is precisely what the company has proposed Hypromaga startup founded by personnel from the Metallurgy and Materials School of the University of Birmingham that, as we read in Financial Timeshas focused on the recycling of hard drives. These components once dominated our PCs and, although they remain of great value as external discs and, above all, as components for NAS systems, they have gradually been separated by much faster SSDs and that have been lowering price. And these hard drives have some components that are manufactured thanks to rare earth elements, such as magnets that allow their operation. Recycling. Gavin MUDD is the director of the Critical Mineral Intelligence Center of the United Kingdom and comments that the country imports between 5,000 and 10,000 tons of rare earth magnets every year in the form of finished products and components, but only 1% of that figure Recycle. He affirms that it is not an isolated case and that it is an amount similar to that of other industrialized nations. “We need to consider future domestic production, and that leads us to consider recycling,” he says. And that is where Hypromag technology comes into play. They claim that their technique allows them to extract the magnets that contain rare earths, which weigh between 10% and 15% of the hard disk itself, and obtain the elements sought. To do this, they have a great drum that they fill with even a ton of waste at the same time and, after closing the hermetic doors, introduce pure hydrogen inside. Then, hydrogen unstals enter the fissures of the magnets, causing them to break and separate them from the surrounding material. After this process, which lasts between four and eight hours, a powder composed mainly of the ingredients of the magnet – the neodymium – falls to the bottom of the container, while other elements such as steel, nickel and aluminum are separated and also can also be recycle. Subsequently, they grind the sifted material and an alloy occurs that can become a magnet again. Different approaches. There is another company that is in garlic and that has also spoken with Financial Times with a tone of competition that, in the end, is the one that can advance the industry of rare earth recycling. This company is called Material Cyclic And he affirms that his method is better than that of “magnet to magnet” because he allowed to crumble each component of the elements instead of separating magnets, on the one hand, iron and steel on the other. Ahmad Ghahreman is the executive director of this company and affirms that its approach allows companies to use the rare lands as they want, not only as magnets. And he compared the two approaches with the recycling metaphor of a pizza: “When recycles pizza with our technology, raisins from flour pizza, salt, pepper and all other ingredients. With the other, pass from pizza to the dough. ” An ambitious patch. Despite competitiveness in his words, Ghahreman considers that both methods are valid and “profitable.” In 2024 they produced 100 tons of rare earth oxides, but they hope to reach 600 tons for the end of this year. In addition, they have plans to open another plant in the United States with a capacity of 1,200 tons per year and have plans to open facilities in Canada and Europe in 2028. Hypromag, on the other hand, hopes to produce between 25 and 30 tons per year in its first phase, but with extension plans to 350 tons thanks to a new plant in Germany and another 1,000 tons of annual alloys with a projected plant in Texas. They are less concrete plans, but the objective of both companies is the same. Clue. Allan Walton, the founder of Hypromag, comments that this technology “is a way of extracting large amounts of rare earths and creating a domestic supply,” and the truth is that the recycling of rare earths is something that has been speaking for years, but It was always a challenge. And it is something that is being sought in various parts of the world. For example, … Read more

What is High-Flyer, the Chinese fund that drives Deepseek and has been using AI for years to make investment decisions

January 30, 2025 by usatoday24

Deepseek is the fashionable artificial intelligence (AI) company. Your most recent language models They have challenged Openai’s leadership and have caused a real earthquake in the technology industry. These days we have known that It was founded in May 2023 and that has developed its products with a fraction of the computing capacity of some of its main western rivals. But what else is known? Let’s see it. The promising present of Deepseek is the result of years of investigation that began long before its official constitution. Its origin is found in High-Flyer, a quantitative investment fund created in 2015 by the Electronic Engineering student Liang Wenfeng with two classmates. As they count on their websitethe idea was that the algorithms became the heart of their business by allowing real -time operations. A company focused on the Chinese stock market High-Flyer completed its first stock market assisted by AI in October 2016, a movement that triggered an unstoppable effort to continue working in that regard. The company formed software and hardware research and development teams. And apparently it was the appropriate decision. In 2017 I already applied AI In almost all its strategies of quantitative investment, but to continue advancing I needed to break some barriers. They discovered that complex models training tasks required a huge calculation power. This did not discourage them and in 2019 they launched a dedicated division called High-Flyer ai to address the challenge. The group built started working with 500 GPU, then built a 1,100 GPU supercomputer A100 of NVIDIA And in 2022 he spent 140 million dollars to raise the number up to 10,000 GPU, before the entry into force of the export controls of the United States. High-Flyer was completely focused on developing its algorithmic trading business. He had his own deep learning training platform and a Outstanding computer infrastructure. Meanwhile, in the United States there was a company called Openai that bet on the generative AI and that He had surprised many with the benefits of his GPT-3 language model. As China Talk collectsLiang wanted to go beyond finance. For a long time he had been convinced that AI would change the world, and had found the opportunity to bring his effort to the next level. In 2023, High-Flyer announced that it would lay the foundations of a new organization to advance the development of general artificial intelligence (AGI). Thus Deepseek was born, with an injection of capital of high-flyer. Deepseek is a product of High-Flyer work and has obviously drunk this company. Both signatures share offices in the same building, although they seem to use different computing resources. The AI startup says it has H20 chips, that are sold as donuts in Chinaand NVIDIA H800, and that has used only 2,048 GPU of this latest model to train its most recent models, an affirmation that some have questioned. Images | High-flyer | Deepseek In Xataka | “They are brilliant researchers under the control of an authoritarian government.” Anthropic’s CEO has spoken about Depseek

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