华为芯片是中国芯国际做的吗

华为六零芯片生产地曝光，中兴国际居然不是一直网传的生产商，那芯片究竟是谁制造的？众所周知，美国对华为的制裁一直备受关注，因为华为作为国内的龙头企业，自然成为了大家关注的焦点，所以华为的自家芯片制造也一直备受瞩目，特别是最新的 mate 六零芯片。那么这款备受瞩目的芯片究竟是谁制造的呢？ 让我来告诉你。了解华为的朋友都知道，早在二零零四年，华为就成立了海思半导体，专注于芯片研发。经过多年的努力，华为终于在二零一四年推出了自家研发的芯片麒麟， 而华为 mate 六零所搭载的芯片正是新一代麒麟芯片，这款芯片在性能、功耗和 ai 处理能力等方面都表现出色，堪称华为手机的心脏。尽管面临美国的制裁，华为一直坚持自主研发的道路，这项芯片的自主研发成功为国产芯片替代进口芯片提供了一个范例。随着国内芯片产业的不断发展壮大，未来将有更多国内企业加入到芯片研发 制造的行列中来，这将有助于提升国内芯片产业的整体竞争力，降低对进口芯片的依赖。华为 mate 六零芯片的自主研发成功展示了华为在科技领域的强大实力，作为国人的骄傲，我们应该为华为的成就喝彩。同时我们也期待国内其他科技企业能够紧跟步伐，共同推动国内科技产业的繁荣与发展，让我们共同期待一个更加强大的中国性。

华为自己没有说我怎么拿到的这芯片，这肯定也不是台阶店做的，但大家都目标指向中兴国际，说因为中兴国际是中国大陆可能最有能力做这件事了，因为他有十四纳米制成的产线，他做这个多次曝光有可能实现这个，这都是猜测。我告诉大家一个真实的情况， 西方国家，特别是美国卖给中国的所有的这种先进的，比如说精密机床，比如说光刻机，他都是能远程监控的，你在什么地方，用作什么用途，用量是多少他都能知道。所以为什么美国现在要 说我要制裁中兴国际，他下不了，他还要调研呢？因为他没有确凿的证据这事就是中兴国际做的，如果真的中兴国际做了，他美国是能够知道的，所以这就成了最大的悬疑案。

华为自己没有说我怎么拿到的这芯片，这肯定也不是台机店做的，但大家都目标指向中兴国际，说因为中兴国际是中国大陆可能最有能力做这件事了，因为他有十四纳米制成的产线，他做这个多次曝光有可能实现这个在都是猜测。我告诉大家一个真实的情况， 西方国家，特别是美国卖给中国的所有的这种先进的，比如说精密机床，比如说光刻机，他都是能远程监控的，你在什么地方，用作什么用途，用量是多少他都能知道。 所以为什么美国现在要说是我要制裁中兴国际，他下不了，他还要调研呢？因为他没有确凿的证据这事就是中兴国际做的，如果真的中兴国际做了，他美国是能够知道的，所以这就成了最大的悬疑案。

huawei and china's topship maker have built an advanced processor to power his latest smartphone it's a sign that beijing is making early progress in a nationwide push to overcome us sanctions huawei has been at the center of intensifying us trade curbs on chinese businesses， which washington says are based on national security concerns bloomberg works with a especially research firm on this to take apart this new phone this new smartphone from huawei what did what did the investigators find and what they found is very very interesting they found that there is an advance semiconductor inside the phone that's made by smick that's a chinese chip making company that's not known to have these kinds of capabilities they were able to make the phone at what's what's called seven nanometer technology which is quite advanced um and in that case they were they were able to produce a processor that was much more advance than people had anticipated smick was actually capable of doing so it's a sign of china's progress in getting around some of these us restrictions on the cona technology it has access to particularly for a company like walwi， which is blacklisted by the us government？ yes， i was going to also why does the speed of the chips inside this huawei phone？ why does it matter it signifies then that china he's moving faster than the rest of the world i anticipated in moving to these faster chips is that the basics of the story that's right the us you recall that last year the biden administration imposed export controls on china it was trying to draw a line in the sand， where china would not have access to chips that were more sophisticated than 14 animator， which is about seven years beyond the latest cutting edge technology and now china is shown that actually internally in china， it can make the seven animeter chips， which are only about five years behind the latest technology so it's a step forward there is a song that they're able to make some progress in this area that's been so contentious um and it's something where the us has tried to limit their ability to kind of delve into these kinds of technologies in the future。

大家都在猜华为这个手机的九千 s 谁生产的啊？那么现在为什么这成了个悬疑句呢？因为华为自己没有说我怎么拿到的这芯片，这肯定也不是台机店做的，但是大家都目标指向 中心国际说，因为中心国际是中国大陆可能最有能力做这件事了，因为他有十四纳米制成的产线，他做这个多次曝光有可能实现这个，这都是猜测。我告诉大家一个真实的情况，西方国家，特别是美国卖给中国的所有的这种先进的，比如说精密机床， 比如说这个光刻机，他都是能远程监控的，你在什么地方，用作什么用途，用量是多少他都能知道。 所以为什么美国现在要说是我要制裁中心国际，他下不了，他还要调研呢？因为他没有确凿的证据，这事就是中心国际做的，如果真的中心国际做了中，他美国是能够知道的，所以这就成了最大的悬疑啊。

中兴国际为什么不能向华为供货？要遵守美国法律？当我们提及全球知名的半导体行业，通常会联想到英特尔、三星电子、台机电、高通、 sk、 海力士、美光科技等行业巨头。 然而，中国的中兴国际经过二十三年的发展，如今已在半导体领域崭露头角。半导体作为现代电子制造的核心要素，被誉为现代工业的心脏，全球芯片行业的蓬勃发展引起了广泛关注，而中兴国际在最近的一次事件中，却不期而遇的成为焦点。 美国对华为的制裁事件让中兴国际陷入舆论漩涡。有传言称，在华为面临关键时刻，中兴国际未能伸出援手，这引发了众多网友的议论，一家中国企业为何会采取这种行动，引发了广泛质疑。然而，中兴国际随后发布了官方声明，声称 称未能正常供货给华为是出于遵守当地法律的需要。换句话说，他们受制于美国法律的限制，这让人们更加困惑。中兴国际成立于二零零零年，总部设于中国连云港，二零零四年在香港上市，最近在上海证券交易所也进行了二次上市。 虽然他是一家中国企业，但其创始人张汝京却是美籍台湾省人，这也突显了我国科技企业在美国发展面临的各种限制和挑战。与此同时，中兴国际也受制于美国法律的束缚，无法为华为提供所需的帮助。然而在官方声明中，他们表示 愿意在允许的情况下与各企业合作，以确保公司的稳定发展。这一事件凸显了资本在现代世界的重要性。由于美国对我国芯片领域的制裁，国内自主研发和创新变得尤为重要，因此 许多国有资本纷纷增加投资，降低外资股份。最近，有消息称，中兴国际的股权结构发生了重大变化，他们计划发行新股以提高国内股权比例，降低外资股权比例，以增强公司的独立性和自主控制能力。目前 主要股东包括国资委、上海集成电路产业投资基金、深圳国有资本运营有限公司等。这些改变大大提高了我们对中兴国际的实际控制权，减少了外资的影响力。 根据我国的规定，决定一家企业属于哪个国家的首要因素是该公司的实际管理机构所在地中心国际的总部位于上海，因此可以被视为一家中国企业。 此外，中兴国际无法向华为供应芯片还有另一个原因，即美国的瓦纳森协议。该协议也称为出口管制法案，是美国在一九七 七年颁布的法规，限制了美国企业向中国提供高仿军用商品和高新技术，必须经过美国机构的批准。由于中兴国际使用的许多技术都源自美国，因此也受到了这一协议的制约。这表明中兴国际所面临的 问题不仅受外部法规的制约，还受到自身技术水平的限制。因此，中兴国际未能为华为提供帮助并不是一个简单的非黑即白的问题。即使众兴国际选择无视美国的规定，并帮助华为供应设备和技术的国外公司，也将听从美国的指示， 中止与中兴国际的合作，这将导致中兴国际面临与华为相似的困境。在美国准备制裁华为之初，中兴国际已向对方发出善意的提醒。许多人表示理解，毕竟一家企业的长远发展需要考虑大局，而面对困难只是短 短暂的。然而，也有很多人对此表示不解，认为即使为了未来的发展，也不应轻易屈服于美国的压力。他们主张自主研发，不论遇到多大挑战都要坚持下去。但是，美国的制裁行动几乎是不可避免的， 即使中兴国际严格遵守相关规定，美国也有理由怀疑中兴国际为我国军方提供相关技术。这种怀疑无疑是不公平的，但却是现实。中兴国际早已着手自主研发，并宣布了自己的规划，计划在三年内实现中国芯片五纳米的突。 这表明中兴国际在我国芯片未来发展中扮演着举足轻重的角色。然而，除了技术限制之外，我国芯片领域还面临着另一个重要问题，那就是生产芯片所需的设备光刻机。中兴国际目前仍在使用荷兰阿斯麦公司提供的光刻机，这使得 他们需要遵守美国的规定，因为阿斯麦的主要股东之一正是美国资本。这也凸显出我国对于光刻机的依赖性，以及在这一领域的技术封锁。美国已与荷兰、韩国、日本等国合作，对我国进行技术封锁，包括芯片领域的技术、 原材料以及光刻机的制造。要真正拥有话语权，我们必须自主研发自己的光刻机。芯片是现代工业的核心，涉及到各个领域，现在超过百分之九十的高新技术都依赖于芯片的支持， 这意味着我们的道路还很漫长，只有不断突破自我，不断钻研新技术，才能摆脱他人的控制。最后，这次中兴国际和华为的事件敲响了警钟， 提醒我们自主研发是唯一的出路。在风雨飘摇中，我们要坚持中华民族的吃苦耐劳精神，用攀科学高峰培养新一代的科研 人才。只有如此，我们才能逐渐摆脱他人的掌控。科技永远是经济发展的强大引擎，而中兴国际与华为之间的事件为我们提供了宝贵的教训。靠山山倒，靠水水流， 我们唯一能依靠的是自己。未来充满挑战，但我们有能力应对，只要我们坚定地朝着自主创新的道路前进。

九月二十五日，华为的秋季全场景发布会隆重举行，在这次活动上，华为发布了一系列新品，包括平板、手机、电视和耳机等，这些新品都是全球领先的。华为发布了首款黄金智能腕表， 华为 waltertimate design 非凡大师，这是华为首款高端黄金智能手表，专为各领域的精英人士打造。该系列腕表首次加入十八 k 黄金材质，纯手工镶嵌六段十八 k 黄金。它还具有黄金表圈、黄金旋转表冠、黄金 pvd 钛金属表带、创新可伸缩蝴蝶扣等设计元。 此外，该产品还支持双向北斗卫星消息和百米深前科技。得意双新的明星刘德华成为该产品的代言人，受到了近百家媒体的关注和报道，包括新华社等央视媒体。这也让全国各地的精 销商对新品销量充满信心和自豪。一位重庆经销商激动的说，看到华为手机携中国新回归非常开心，作为华为经销商非常自豪。今天华为的辉煌成就离不开麒麟芯片代工商的大力支持， 那么谁才是华为芯片真正的代工商呢？虽然中兴国际是目前中国芯片制造企业的佼佼者，但美国媒体聚光灯并未集中在中兴国际身上，考虑到中兴国际无法完全避开美国的监视 为华为代工芯片，这里我们不得不提到另一家企业比亚迪。尽管大家普遍知道比亚迪擅长制造汽车和口罩，但他还有另一项出人意料的能力制造芯片， 这确实让美国方面大跌眼睛。在华为麒麟芯片代工商富士康因受到美国制裁而放弃华为这个巨头后，比 亚迪勇敢的站了出来，接过了华为所有的手机生产订单，为华为实现全自主芯片制造提供了强大助力。比亚迪作为国内企业领域的佼佼者，悄然与华为达成强强联合，这两大巨头的合作具有深远意义， 将共同扛起中国科技企业的崛起之路。想象一下，如果比亚迪在未来汽车中加入华为智能控制系统，将会带来怎样的前景？ 可以说，比亚迪无愧于国货之光的称号，从选择与华为合作那一刻起，比亚迪就在历史上写下了浓墨重彩的一笔，让我们一起期待华为、比亚迪等国货之光的璀璨未来吧！

像我们能看到的就是华为这个芯片呢，是有五 g 的功能，有很多人拆了吗？哎，还有直播吗？ 是吧，就是跟苹果比，他是一样的吗？他是，他确实功能上，就因为叫方选，功能上他是跟那个估计是是一样的啊，后面的技术基础怎么样不知道，但是有一点很肯定，他应该是去美化的， 因为美国对那个华为控制的太严格了啊。所以呢，那个任何就是公开的商家，包括中心国际，我觉得要他明显的违反那个美国的制裁。不可能 啊，我看台湾有些人猜猜哇，就是台机电偷偷卖给他的啊，那个不可能是吧？台机电对美国的忠诚，对中国忠诚厉害多了，对吧？那个，那美国是， 这中国是亲爹，美国是个是个是个是是是，搞不清楚哪来的个野爹。哎，他爱那个野爹爱的不得了你，你说他还会背叛美国吗？不可能的是吗？哎，所以我觉得台阶店可以排除，中心国际大概率也排除。

people talking about new china's 7 centimeter chip， there's a chip made by smick at 7 nanometers， which is much more advanced than anybody thought as you know i am a chip design engineer so these news made me curious what is so special about this breakthrough chip and how did it manage to make it without the famous ev machines will they be able to scale even further to let's say 3 mm let's find out we are talking today about the new current chip designed by high silicon who always chip design company this is a mobile chip designed for smartphones and it's basically their alternative to qualcomm's snapdragon chips instead of purchasing expensive qualcomprocessors huawei replaced it with their own chip and surprisingly the performance of the huawei's chip is comparable to the qualcomm chip even though the qualcomm chip is in 4 mm and it's from about one year ago even with this technology gap， it's still comparable and that i must admit is an impressive result this chip is a system on a chip which means it's not on this cpu they're multiple gpus mpus so a neural processing unit and a modem for 5g finally we come to the most interesting part this chief was fabricated by smic fap in seven nanometers and some even call it a five nanometer class note and it's even bigger than is because they haven't just managed to immunity for brigade as seven an emitter chip， but they've also managed to develop a technology good enough for mass production which means asmic will do manufacturing hundreds of millions of these chips with a stringent yield requirement now the fact that as mic achieved says to me is an indication that in the near future will be seeing them publicating eventually ai exhilarators which will be designed by local companies like start up beering like baidu and why i am so impressed by them mass producing this seven an emitter chips because there is a big difference between research and mass production as you know last year ibm developed two millimeter process note， but these were just a bunch of wafers in a lab environment however， ramping up the mass production is a much different matter and from all the reports which i started smic is seven millimeter tech seems to be very well done and i gonna explain in details in this video how they achieved this because to me from an engineering point of view it's really interesting but first of all there is one controversial think about this whole news because smic positioning their n plus 2 process note as an equivalent tissum c is 7 centimeters however， many people expressed certain concerns about it and here why when we are talking about seven nanometers five nanometers three nanometers like the new apples a 17 pro chip which is forbicated in three nanometers technology in reality this numbers don't indicate any particular dimension within transistor they just give us an indication about the performance of how we call it a driving capability of the device that's why there can be a huge difference between different facts with respect to what they call a seven and the meter technology when i started transistors first at university everything was straightforward for example for at 28 nanometer transistor you still can go and draw at 28 nanometer gate roughly and it will be fabricated， but starting from sixteen ninemeters when we switch to fine fat think started to get really weird and that's because fiend that technology has fiends so the gate is not just to rectangle anymore and also there is also spacing between these fiends so here we can't apply our conventional thinking anymore it just doesn't work so for processed notes below sixteen ninemeters those ninemeter values are just a marketing number and the idea of this number is to benchmark the performance of this transistor against the planner transistor which gate would have been shrinked down to this dimension so in fact there could be many ways of building a 7 mm technology and this makes the comparison between the fabs really fazzing this would give smics fab some leeway the call there and plus two technology seven nanometers or five nanometers or even three nanometers however， after reading several reports which compared the pitches and also the transistor density in general it's actually seems slightly different but still in the range so it's still comparable to the tsmc and sound technology and there is another indication which makes me to believe that the performance as we discussed the ppa is comparable to the qualcoms tsmc began fabricating seven and a meter chips back in two thousand seventeen and by twenty twenty they have already fabricated more than one billion seven and a meter chips batism c produced seven and a millimeter transistors using euv machines from acml to which smac reportedly has no axis instead they're equipped with some immersion deep itraviolet machines so called duv machines from acml and this year they've ordered another 50 or sew machines to make sure that they have the capacity for potential future demand and the main difference between euv machines and d dv machines is the vape length of light which they are using for vapor batterning dv machines use light typically in the arrange of about 193 nanometers while ev machines use light of the thirteen point five nanometers obviously shorter wavelength is better because it allows higher resolution which means with shorter wavelength we can fabricate finer structures on the wafer， while dv machines are limited in resolution and they have been used in the industry to manufacture chips down to fortune nanometers so the question is can as semic fabricate seven nanometers five nanometers without euv machines and the answer is yes they can there was quite a nice quote from someone i don't remember we have no money so we have to think instead in this case they do have a lot of money but they have no access it was a similar story with rocket labs from new zealand before this company new zealand had no space industry and obviously they didn't have access to billions of investors dollars and they had no access to advanced propulsion technology so they had to get creative and eventually 3d printing rockets and for the sake of engineering i love this idea if you don't have money or access to advanced technology you have to get that creative and that's what they did and also that's what sms idiot they hired brilliant engineers from chase mc and just figured it out the truth is without euv machines it's really challenging to fabricate seven and a meter technology with a decent yield and to understand that let's recover some of the recent history before ev machines became available dv machines were the state of the art， but after the industry reached 20 mm to ensure more slower would continue companies like intel antisms here try to push dv machines to the limit they've invented a technique called multi patterning technique involves using several masks and exposing the way for several times the pattern just a single transistor feature it was definitely a lot of work， but with this companies like teasency managed to continue scaling from twenty ninemeters all the way down to seven， but this was a great challenge and it was air prone because it was hard to achieve precise alignment between the patterns between different steps any misalignment here cause defects and huge yield loss and loss of money now for seven millimeter chips smsc reportedly using five to six stages of multi patterning this means they have to to expose each favor five to six times to draw a single transistor feature this is actually why it took them quite some time to bring this technology to mass production and basically they've achieved exactly the same thing as team seed hit just about six years later just keep in mind that each wafer exposure caused them time and money and i suspect that the complexity in the cost of smac 7 mm technology is sky high it has nowhere near the same economic efficiency at the same technology from intel tesm c or samsung foundry i've actually read that it's at least 30 percent cheaper to fabricate seven an emitter technology with euv compared to dv tools now how far they can push the limits first d uv machines can they actually achieve， four millimeters， three millimeters let me know what you think in the comments i think that in theory， one can use these machines to achieve 5 cm or even smaller process notes again by using multi patterning techniques but it will take quite some time to produce it at high quantities and the defect trait will be really high when we are talking of millions of wafers don't want to scrap on sort of them right it's too expensive for example now tsmc itself produces three millimeter chips using uv machines and they still have to do multi patterning until high and a uv machines arrive which is like the next generation of uv machines so it's unlikely that smac will get so far with just guv machines for china the progress further they will have to advance some novel techniques here and this will stimulate the chinese industry and a lot of investment will flow into litography machines and this eventually could be huge plots for china in the long term because clearly the goal is to build self sufficiency in semiconductor space if you love my videos and you want to support the channel join the channel or become a patreon now check out another video where explain the recent state of the art advances。