Can anyone please explain why Turkey got into the semiconductor game so late?
Also, why did Aselsan choose to make a DUV machine instead of an EUV one?
This video explains why we did enter chip industry late, it is Turkish.
Can anyone please explain why Turkey got into the semiconductor game so late?
Also, why did Aselsan choose to make a DUV machine instead of an EUV one?
The Ministry of Industry and Technology wants to establish a domestic chip factory with an investment of 5 billion dollars. Until 2030, the work of companies that produce solar panels such as Tübitak, ASELSAN, Kalyon, institutions such as the Presidency of Defense Industries, etc. continues. For example, Kalyon is working on semiconductor wafer production, Tübitak is working on the 65 nm chip production process, ASELSAN is working on the duv lithography device. The facility to be opened in Ankara in 2028 will be a medium-sized production facility.Peki bu fabrikayı kim inşa edecek ve hangi eğitim yönetimi bu fabrikayla işbirliği yaparak çalışacak
I don't know how my post ends up being in Turkish , anyway Gebze is nextdoor to Istanbul and is like an extension of the city, so. I am talking about Qatar partnership for 65 nm chips. I would say it should be for a rather small capacity investment but still beyond prototyping. If Aselsan can pull of a DUV machine that would be promising rather than buying foreign made machines as this effort can be upgraded to finer processes over time.Sanırım TÜBİTAK Yital'den bahsediyorsunuz ama İstanbul'da değil, Gebze'de, laboratuvar ortamında 250nm çip üretebiliyor, Katar'daki bir üniversiteyle işbirliği yaparak 65nm çipler üzerinde çalışıyor, tabii ki Katar'ın hediye ettiği 40 milyon dolarlık makinalarla seri üretim değil de prototip üretim yapacak bir tesis.
There is a supply shortage of lithography devices in the market, China even collects second-hand devices. I think it is very difficult to set up a chip factory without a domestic lithography device. ASELSAN will prepare a duv lithography device that can produce 90 nanometer chips for the facility to be opened in 2028, then it will be the turn of the device that can produce 65 and 45 nanometer chips.Yazım Türkçe olarak nasıl sonuçlanıyor Bilmiyorum :emin değilim: , her neyse Gebze İstanbul'un hemen yanı başında ve şehrin bir uzantısı gibi, yani. 65 nm çipler için Katar paylaşımından bahsediyorum. Oldukça küçük kapasitede bir yatırım için yine de prototiplemenin ötesinde olmalı. Aselsan bir DUV makinesi üretebilirse bu, yabancı yapımı makineler satın almaktan daha umut verici olur çünkü bu çabayla daha ince ayarlara yükseltilebilir.
That's because ASML will not supply spare parts and maintenance to China anymore. Türkiye did not have a chip-making ecosystems other than for low production runs. Once we start building that echo system we will know if the west will cooperate or not, but we need to prepare for the worst.There is a supply shortage of lithography devices in the market, China even collects second-hand devices. I think it is very difficult to set up a chip factory without a domestic lithography device. ASELSAN will prepare a duv lithography device that can produce 90 nanometer chips for the facility to be opened in 2028, then it will be the turn of the device that can produce 65 and 45 nanometer chips.
Excellent preparation. However , would you please shed light on front running companies in the industry. Thank you in advance.That's because ASML will not supply spare parts and maintenance to China anymore. Türkiye did not have a chip-making ecosystems other than for low production runs. Once we start building that echo system we will know if the west will cooperate or not, but we need to prepare for the worst.
They are reporting 4nm now.SMIC (China) is pushing ASML DUV systems to their absolute limits (5nm) with multipatterning
Now ASML has new High-NA EUV systems that will push the boundaries of photolithography even further.
AB Micronano, a company founded by ASELSAN in partnership with Bilkent University, mass-produces gallium nitride chips, which are used in radars. The chip factory, currently under construction, will first produce 90-nanometer silicon chips for defense systems and will later be able to produce for sectors such as white goods and machinery.Aselsan ilk nano çipi geliştirildiğinde ben küçük bir üretim birimi kurulup üretime başlanacak, bu çiplerin devam etmesi, sürdürülmesi falan gibi bir düşünceye kapılmıştım.
Bu forum kurulmadan önceydi, yani 2020'den önce. Çiplerin nasıl bir işletmeye ait bir şey öğrendiğini gösterir.
Daha sonra Katar'ın geçmişte satın alınabilen nano çip fabrikasını inşa etmeyi ve çipleri Türkiye'de üretebileceğimizi duyduk. Peki bu çıkana kadar nasıl gidiyor?
herhangi bir şey oluyor mu, sonuç veriyor mu? Halkın kayıtlarını tutmak sadece düşmana yarar, gizli yerlere sahip olmak sadece düşmana yarar. Çünkü bilim adamlarınızı ve benzerlerini öldürmeye başladıklarında her şeyi basıyorsunuz, geri çekiliyorsunuz bile. Halkın beslenme şartı.
The forum language is English.ASELSAN'ın Bilkent Üniversitesi ortaklığıyla kurduğu AB Micronano adlı şirket, galyum nitrür çipleri seri üretiyor ve bu çipler radarlarda kullanılıyor. Şu anda inşası devam eden çip fabrikası, öncelikle savunma sistemleri için 90 nanometrelik silikon çipler üretecek ve daha sonra beyaz eşya ve makine gibi sektörler için üretim yapabilecek.
AB Micronano, a company founded by ASELSAN in partnership with Bilkent University, mass-produces gallium nitride chips, which are used in radars. The chip factory, currently under construction, will first produce 90-nanometer silicon chips for defense systems and will later be able to produce for sectors such as white goods and machinery.
To be fair, it's not like semiconductor technology is going to get better infinitely sooner or later; some believe they will hit a wall defined by physical limits that may even happen in the next 10 years or so.SMIC (China) is pushing ASML DUV systems to their absolute limits (5nm) with multipatterning. I wonder what manufacturer of DUV machines we'll be using before (if ever?) ASELSAN produces something. Probably Canon. We're so far behind that these factories will only serve our military unfortunately.
EUV relies on research from the 90s by US taxpayer funded labs (LLNL, Sandia). That's why the US has so much power over:
1. ASML (Netherlands, EUV systems)
2. Zeiss (Germany, makes the molecularly perfect mirrors in EUV systems)
3. IMEC (Belgium, fundamental IC and VLSI research partner of ASML)
4. TSMC (Taiwan, does the hard work of process development at scale, which even Intel [RIP] has consistently failed to catch up to)
Japan (Canon, Nikon) wasn't given access to this research, and ASML, IMEC and Zeiss were the only ones brave enough to realize it. Now ASML has new High-NA EUV systems that will push the boundaries of photolithography even further. Canon claims that nanoimprint lithography is viable, but this is just marketing for the foreseeable future.
Modern ICs are so advanced and in demand that wars will soon be fought over them. Brainless idealist techbro Sam Altman (who'll be the end of us) wanted 36 new factories from TSMC, and was promptly brushed off because the cost of even a single one is unfathomable. While AI is overhyped to some degree, our demand for compute will grow exponentially. We're too late, but I suppose something (literal early 2000s tech) is better than nothing. I am eternally saddened by how poorly we invested in our nation's development.
That's fine, thanks.This video explains why we did enter chip industry late, it is Turkish.
Barring any magical innovation that completely replaces how ICs are designed and manufactured there will always be a rift in technology between established manufacturers and newcomers. This is the unfortunate reality.To be fair, it's not like semiconductor technology is going to get better infinitely sooner or later; some believe they will hit a wall defined by physical limits that may even happen in the next 10 years or so.
That's fine, thanks.
The chips our factories manufacture will never be cost-effective or cutting edge even for relatively basic ICs such as microcontrollers, but will be critical for self-reliance. We have our niches in GaN, an amazing achievement, because we were in time for that tech. The same sadly cannot be said for silicon.AB Micronano, a company founded by ASELSAN in partnership with Bilkent University, mass-produces gallium nitride chips, which are used in radars. The chip factory, currently under construction, will first produce 90-nanometer silicon chips for defense systems and will later be able to produce for sectors such as white goods and machinery.
65nm is a long way from the 28nm that China has recently targeted and even further from the 5nm it has apparently reached using imported lithography equipment.
AB Micronano, a company founded by ASELSAN in partnership with Bilkent University, mass-produces gallium nitride chips, which are used in radars. The chip factory, currently under construction, will first produce 90-nanometer silicon chips for defense systems and will later be able to produce for sectors such as white goods and machinery.
First I was amazed at how well machine translation into turkish was/seemed so good, then around 50-60% it started translating it into gibberishThe forum language is English.
Mesajlara bakin lütfen!
For a split second I thought you were talking about the YN-ZMA deal...Its official, pending approval.