#Node 144 | Explore Tumblr posts and blogs

knuckleduster · 10 months ago

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"The study of the Middle East has been a national priority in Israel from its inception, a priority extending far beyond the university gates. In Israel, this form of expertise is termed Mizrahanut (Orientalism, literally translated).141 Orientalism, Edward Said argued, is the system of knowledge production about the “Orient” through which the power of the European and US empires operate. It reflects Western ideas and imaginations about the “Orient” articulated through its production as distinct from the “Occident.”142 Building on Said’s theorization, Israeli sociologist Gil Eyal argues that Mizrahanut is a generic name for the complex of Israelis’ encounter with their geographic environment. It is a mechanism that draws and polices boundaries and examines phenomena from what the Israeli state defines as “the other side.”143 Mizrahanim (Orientalists) in Israel therefore include not only academics, but government and military officials, journalists, and others engaged in monitoring the Palestinian population and neighboring Arab countries and participating in public debates on Middle Eastern affairs.144

Israeli Middle East Studies indeed developed at the intersection of Israeli academia, the military, and the state. Mizrahanut was central to the establishment of Israeli academia itself, with the Institute for Orient Studies developed as one of the first three schools of Hebrew University.145 In a study of the foundational generations of Israeli Middle East studies scholars, Eyal Clyne shows that many saw no distinction between their scholarly and national commitments.146 In the 1930s and 1940s, the Institute for Oriental Studies at Hebrew University trained entire cohorts of advisors and officials serving the Zionist movement leadership, who joined the “Arab branch” of the Haganah paramilitary and the departments for Arab affairs and politics of the Jewish Agency. They worked to monitor the Arab press, catalogue and index intelligence data collected on Palestinians, and survey actions, attitudes, and social relations in Palestine and neighboring Arab countries. Having served roles in political intelligence and hasbara in the prestate years, roughly half of these Mizrahanim returned to Hebrew University after the state’s establishment to found the contemporary Department of Islamic and Middle Eastern Studies.147

Following the Institute for Oriental Studies, the Dayan Center for Middle Eastern and African Studies was formed as a node of the Israeli state network of intelligence expertise. First called the Shiloah Institute, the center was established by the Israeli military, the Ministries of Defense and Foreign Affairs, and Hebrew University in 1959. It was annexed to Tel Aviv University in 1966 and was renamed after Moshe Dayan, former Israeli chief of staff and minister of defense, in 1983.148 At its inception, the Dayan Center was founded to serve as a bridge between the Israeli Intelligence Division and academia. It was staffed by both academics and representatives from Israel’s Foreign Office, and regularly published articles by military and state officials and hosted them at conferences.149 At Tel Aviv University, it continued to invite military leaders as guest researchers to publish their own work and to contribute to the institute’s publications. Many of its researchers—who formerly or continuously served in the Israeli Intelligence Corps—received classified military information for their studies, while intelligence officers and state officials staffed the institute’s committee to select research projects and award research grants.150 The institute operated within Tel Aviv University as a semi-secret enclave, barring access to Palestinian citizens of Israel and those without state security clearance, including access to master’s and doctoral theses that drew on classified data.151 As such, the center’s knowledge production was structured like the Israeli Intelligence Corps and served as the military’s auxiliary research arm.

This entanglement of university, military, and state expertise shaped the discipline in its early years. Many of the founding Israeli Middle East studies scholars moved between or held parallel roles in academia and the security establishment or were otherwise bound by loyalty and secrecy commitments to state apparatuses.152 Prominent examples include Meir Kister, Israel Prize laureate and founder of the Arabic language departments at Hebrew University and the University of Haifa, who also worked for the Haganah’s intelligence agency. Also at Hebrew University, Israel Prize laureate for Mizrahanut Yaakov Landau supplied research on Palestinian citizens of Israel to the Prime Minister’s Office Advisor on Arab Affairs, from which he received materials and proposed research topics. At Tel Aviv University, Yaakov Shimoni contributed his expertise in Arabic and Arab politics to the Israeli military, as well as to Israel’s decision to institutionally prevent the return of Palestinian refugees between 1947 and 1949, in direct violation of UN resolution 194.153

With Israel’s establishment of a military government in the Occupied Palestinian Territory in 1967 came renewed opportunities for academic cooperation with the state. Hebrew University professors Menachem Milson, Amnon Cohen, Moshe Sharon, and Moshe Maoz served as Arab Affairs advisors to the Israeli military and government. Milson also served as the inaugural head of the Civil Administration, Israel’s military administration in the OPT, and oversaw the forced closure of the Palestinian Birzeit University beginning in 1981; Cohen, Sharon, and Maoz served as colonels and worked with the military throughout their academic careers. At Tel Aviv University, professor Zvi Elpeleg drew on his expertise as a scholar of Palestinian history while repeatedly serving as military governor over various regions of the OPT, including the Gaza Strip and Nablus.154

Leading Middle East studies scholars maintain ties to security apparatuses to this day. Some serve in senior positions in the Intelligence Corps or other elite military units throughout their academic tenure, others secure data or funding from state agencies for their research, and others still are officially or in a classified manner employed by state and military institutions as researchers or instructors.155 Though they no longer officially operate under the Israeli security state, the leading Middle East studies departments and institutes continue to conduct research and offer expertise in its service."

Maya Wind, Towers of Ivory and Steel: How Israeli Universities Deny Palestinian Freedom, Verso (2024) (p. 59-63)

141 Eyal Clyne, Orientalism, Zionism, and Academic Practice: Middle East and Islam Studies in Israeli Universities (New York: Routledge, 2019), 527. 142 Edward W. Said, Orientalism (New York: Vintage Books, 1979); Nadia Abu El-Haj, “Edward Said and the Political Present,” American Ethnologist 32, no. 4 (2005): 538–55. 143 Said, Orientalism; Gil Eyal, Disenchantment of the Orient: Expertise in Arab Affairs and the Israeli State (Stanford, CA: Stanford University Press, 2006), 22–3. 144 Eyal, Disenchantment of the Orient. All major Israeli news media employ one or more full-time experts under the job title of “commentator/correspondent on Arab affairs.” Diverse government agencies such as intelligence and security bodies, the Ministries of Justice, Education, and Religions, and diplomatic offices employ officially titled Mizrahanim in advisory positions, as do independent think tanks, research institutions, and NGOs. Clyne, Orientalism, Zionism, and Academic Practice, 550. 145 Clyne, Orientalism, Zionism, and Academic Practice; Eyal, Disenchantment of the Orient. 146 Clyne, Orientalism, Zionism, and Academic Practice. 147 Ibid. 148 Ibid.; Moshe Dayan Center for Middle Eastern and African Studies, “About Moshe Dayan Center” [in Hebrew], dayan.org.149 Ibid.; Eyal, Disenchantment of the Orient. 150 Eyal, Disenchantment of the Orient. 151 Ibid.

#reading #quite insane that they literally call it orientalism.

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fruityyamenrunner · 2 years ago

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astrology doesn't say there's 12 types of guy, it says there's 12^however many planets you care about types of people, which reduces to 12 if you only care about sun signs, but goes to 144 including the moon sign, 1728 with rising sign.

with the inferior planets it's a little harder to calculate, but the superior (classical) planets add another 3 to the exponent, so ~3 million.

Mercury is only ever 1 sign away from the sun, so that's just a factor of 3

Venus is only ever 2 signs away, so that's a factor of 5

So classically there are 12⁶×3×5 = 44,789,760 types of guy

The modern planets add a factor of 12³, so 77,396,705,280 types of guy

You can add a few other factors for things like the lunar nodes, or Chiron, or Lilith or whatever

#astrology

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risenwraith · 2 years ago

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#144 I have new ink!

(Oh, sorry, that's the old ink.) Behold! Now I have...

. . .

Yes! Three faded dots.

One just under my right armpit, one on my breastbone and one at the end of my surgery scar. They are there so the radiology team don't zap my heart or lungs full of radiation accidentally. So, essentially, vector target marks I suppose?

Which is a bit terrifying when you think about it. I mean the Chemo-Is-Essentially-Poison AKA, a Game Of Chicken We Hope Your Cells Win, is scary enough. Now it's Cosmic Rays That Can Kill You But Will Only Kill The Bad Bits (we hope).

I guess once again my 'oh, this is okay, don't make a fuss, science is wonderful' got slapped in the face by my full on panic of 'I'm gonna be fucking irradiated and they might miss and just zap my organs?!'

It didn't help that the nurse said, "Usually it only takes a day to map, but yours will take at least two..." with a sideways look that blatantly said 'three... possibly four.' I don't know why I'm especially complicated and I'm not sure I want to know. If the answer is something bland like 'you're in X age bracket' or 'you're in X body size bracket' that would be okay, but if it's all specifically about the lymph nodes or type of cancer then I don't want to know at all. If that's how it is I don't want to know how difficult it is for modern science to keep me from being dead. I'm much happier knowing they're doing a good job and it's all going to plan, thanks.

On the plus side, I have PLANS for those (utilitarian and therefore dull) little spots of ink. I plan to make them all pretty once their function is concluded!

#breast cancer #radiation #cancer #tattoos

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dreams-of-cerulean · 2 years ago

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Another piece of breaking news. Apparently, a law has been passed that the nodes that have been occupied by the military are not to be attacked lest the perpetrators be punished both monetarily and through imprisonment.

They labeled 10 nodes on the 144 on the map - which surprised mI can see why some of the other factions are pissed off at Kris. Templars and Night Faction still control enough Nodes, but these smaller ones probably can’t keep up - more to lose. Just because they’re small though doesn’t mean they’re not powerful - there’s whole guilds dedicated to Magic or Psionics there. Some of which are subordinated under major factions. And the fact they can’t deal with you normally, I’d be careful from here on out.

On the somewhat bright side, I think everyone’s starting to think you’re the government’s ace in the hole as opposed to someone summoned from the local powers here. So a lot of the suspicion has gone off from the Nameless Church side.

#online::Levant #malleablepersonage69

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amaryllis-sagitta · 3 months ago

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Me: hey I'm sure there's a fairly simple method to execute this supposedly complex concept in Blender Tutorial: Let's set up 144 geometry nodes that crank this shit up to 6 subdivision levels My GPU: [whispering faintly] *mercy*

#sagitta rambles #fun project i told myself

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icgoodfind · 5 months ago

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STMicroelectronics announced that the 40nm MCU will be produced by Huahong Group, the second-largest wafer foundry in China.

On November 21st, news came that STMicroelectronics, a major European chipmaker, held an Investor Day event in Paris, France on Wednesday local time. It announced that it would cooperate with the second-largest wafer foundry in China to produce 40nm-node microcontrollers (MCU) in China to support the achievement of its medium- and long-term revenue goals.

STMicroelectronics, through the implementation of a manufacturing restructuring plan and a cost base adjustment plan, is expected to save up to several million dollars compared to the current cost by 2027. The expected revenue for 2027 - 2028 is about 180 billion US dollars, and the operating profit margin is between 22% and 24%.

To support the achievement of this goal, Jean-Marc Chery, the CEO of STMicroelectronics, announced on Wednesday local time that he would cooperate with Huahong Group, the second-largest wafer foundry in China, and planned to produce 40nm MCU in China by the end of 2025. He believed that local manufacturing in China was crucial for its competitive position.

Fabio Gualandris, the manufacturing director of STMicroelectronics, said that other reasons for manufacturing in China included the cost-effectiveness of the local supply chain, compatibility issues, and the risk of government restrictions. In addition, producing chips anywhere else meant missing out on the rapid electric vehicle development cycle in China.

"They are moving faster," he said. "If you are not here, you cannot respond in a timely manner."

When Jean-Marc Chery made the above remarks, major countries and regions around the world such as the United States, Europe, China, and Japan were all actively promoting more chip manufacturing locally, and many chip companies had been expanding in Singapore and Malaysia to serve the Asian market.

However, STMicroelectronics is the largest manufacturer of energy-saving silicon carbide (SiC) chips for electric vehicles, and its customers include Tesla and Geely. The company said that the Chinese market, as the largest and most innovative market for electric vehicles, was an indispensable market and it was impossible to fully compete from the outside.

Jean-Marc Chery said, "If we cede the market share in China to another company working in the industrial or the automotive field, that is, a Chinese enterprise, they will dominate their own market. And their domestic market is so huge that it will be an excellent platform for them to compete in other countries."

According to STMicroelectronics' plan, the plan to manufacture its STM32 series products in China will help STMicroelectronics expand its customer base by 50% in the next five years.

He added that STMicroelectronics was adopting the best practices and technologies learned in the Chinese market and applying them to the Western market. "The story of the missionary is over," he said.

Before Jean-Marc Chery made the above remarks to reporters in Paris, the company had been hit hard by the downturn in the industrial chip market.

ICGOODFIND recommends a complete list of commonly used chips of STMicroelectronics:

STM32F302C8T6 LQFP-48_7x7x05P

STM32F302CBT6 LQFP-48_7x7x05P

STM32F302CBT6TR LQFP-48(7x7)

STM32F302CCT6 48-LQFP

STM32F302CCT7 LQFP-48(7x7)

STM32F302K6U6 32-UFQFN 裸露焊盘

STM32F302K8U6 UFQFPN-32

STM32F302K8U6TR UFQFN-32(5x5)

STM32F302R6T6 LQFP-64(10x10)

STM32F302R8T6 LQFP-64

STM32F302RBT6 LQFP-64

STM32F302RBT6TR LQFP-64(10x10)

STM32F302RBT7 LQFP-64(10x10)

STM32F302RBT7TR LQFP-64(10x10)

STM32F302RCT6 LQFP-64

STM32F302RCT6TR

STM32F302RCT7TR

STM32F302RDT6 LQFP-64(10x10)

STM32F302RDT6TR

STM32F302RET6 LQFP-64(10x10)

STM32F302RET6TR LQFP-64(10x10)

STM32F302VBT6 LQFP-100(14x14)

STM32F302VCT6 LQFP-100(14x14)

STM32F302VCT7 LQFP-100(14x14)

STM32F302VDH6 UFBGA-100(7x7)

STM32F302VDT6 100-LQFP

STM32F302VET6 LQFP-100(14x14)

STM32F302ZET6 LQFP-144(20x20)

STM32F303C6T6 LQFP-48(7x7)

STM32F303C8T6 LQFP-48_7x7x05P

STM32F303CBT6 LQFP-48_7x7x05P

STM32F303CBT6TR LQFP-48(7x7)

STM32F303CBT7 LQFP-48(7x7)

STM32F303CCT6 LQFP-48_7x7x05P

STM32F303CCT6TR LQFP-48(7x7)

STM32F303CCT7 48-LQFP

STM32F303K6T6 LQFP-32(7x7)

STM32F303K8T6 LQFP-32_7x7x08P

STM32F303R6T6 LQFP-64(10x10)

STM32F303R8T6 LQFP-64_10x10x05P

STM32F303RBT6 LQFP-64_10x10x05P

STM32F303RBT6TR LQFP-64(10x10)

STM32F303RBT7 64-LQFP

STM32F303RBT7TR LQFP-64(10x10)

STM32F303RCT6 LQFP-64_10x10x05P

STM32F303RCT6TR LQFP-64

STM32F303RCT7 LQFP-64

STM32F303RDT6 LQFP-64(10x10)

STM32F303RDT7 QFP64

STM32F303RET6 LQFP-64_10x10x05P

STM32F303RET6TR LQFP-64(10x10)

STM32F303RET7 LQFP-64

STM32F303VBT6 LQFP-100(14x14)

STM32F303VBT6TR LQFP-100(14x14)

STM32F303VCT6 LQFP-100_14x14x05P

STM32F303VCT6TR LQFP-100(14x14)

STM32F303VCT7 LQFP-100_14x14x05P

STM32F303VDT6 LQFP-100(14x14)

STM32F303VEH6 UFBGA-100(7x7)

STM32F303VET6 LQFP-100

STM32F303VET6TR LQFP-100(14x14)

STM32F303VET7 LQFP-100(14x14)

STM32F303ZDT6 LQFP-144(20x20)

STM32F303ZET6 LQFP-144_20x20x05P

STM32F303ZET7 LQFP-144(20x20)

STM32F334C6T6 LQFP-48

STM32F334C6T6TR

STM32F334C8T6 LQFP-48_7x7x05P

STM32F334C8T7 LQFP-48(7x7)

STM32F334C8T7TR LQFP-48(7x7)

STM32F334K4T6 LQFP-32

STM32F334K6T6 LQFP-32_7x7x08P

STM32F334K8T6 LQFP-32_7x7x08P

STM32F334K8T7 LQFP-32(7x7)

STM32F334K8U6 UFQFPN-32(5x5)

STM32F334R6T6 LQFP-64_10x10x05P

STM32F334R8T6 LQFP-64_10x10x05P

STM32F334R8T7 LQFP-64(10x10)

STM32F334R8T7TR LQFP-64(10x10)

STM32F358VCT6 LQFP-100(14x14)

STM32F373C8T6 LQFP-48

STM32F373C8T6TR LQFP-48(7x7)

STM32F373CBT6 LQFP-48(7x7)

STM32F373CCT6 LQFP-48_7x7x05P

STM32F373CCT6TR LQFP-48(7x7)

STM32F373CCT7 LQFP-48(7x7)

STM32F373R8T6 LQFP-64(10x10)

STM32F373RBT6 LQFP-64_10x10x05P

STM32F373RCT6 LQFP-64_10x10x05P

STM32F373RCT6TR LQFP-64(10x10)

STM32F373V8H6 UFBGA-100(7x7)

STM32F373V8T6 LQFP-100

STM32F373VBH6 100-UFBGA

STM32F373VBT6 100-LQFP

STM32F373VBT7 LQFP-100(14x14)

STM32F373VCH6 100-UFBGA

STM32F373VCH7 UFBGA-100(7x7)

STM32F373VCT6 LQFP-100

STM32F3DISCOVERY

STM32F400CBT6 LQFP-48

STM32F400RBT6 -

STM32F401CBU6 QFN-48

STM32F401CBU6TR 48-UFQFN 裸露焊盘

STM32F401CBU7 UFQFPN-48(7x7)

STM32F401CBY6

STM32F401CBY6TT

STM32F401CCU6 UFQFPN-48

STM32F401CCU6TR UFQFPN-48(7x7)

STM32F401CCU7 48-UFQFN 裸露焊盘

STM32F401CCY6

STM32F401CCY6TR 49-UFBGA，WLCSP

STM32F401CCY6TT WLCSP-49

STM32F401CDU6 48-UFQFN 裸露焊盘

STM32F401CDU6TR UFQFPN-48

STM32F401CEU6 UFQFPN-48

STM32F401CEU6TR 48-VFQFN 裸露焊盘

STM32F401CEY6TR 49-UFBGA，WLCSP

STM32F401RBT6 LQFP-64_10x10x05P

STM32F401RBT6TR 64-LQFP

STM32F401RCT6 LQFP-64_10x10x05P

STM32F401RCT6TR LQFP-64(10x10)

STM32F401RCT7 LQFP-64(10x10)

STM32F401RDT6 64-LQFP

STM32F401RET

STM32F401RET6 LQFP-64_10x10x05P

STM32F401RET6TR LQFP-64(10x10)

STM32F401VBH6 100-UFBGA

STM32F401VBT6 LQFP-100(14x14)

STM32F401VCH6 100-UFBGA

STM32F401VCT6 LQFP-100

STM32F401VDH6 UFBGA-100(7x7)

STM32F401VDT6 LQFP-100(14x14)

STM32F401VEH6 UFBGA-100(7x7)

STM32F401VET6 LQFP-100(14x14)

STM32F402RCT6 LQFP-64

STM32F402VCT6 LQFP-100

STM32F405OEY6TR WLCSP-90(4.223x3.969mm)

STM32F405OGY6

STM32F405OGY6TR WLCSP-90(4.22x3.97)

STM32F405RG

STM32F405RGT

STM32F405RGT6 LQFP-64_10x10x05P

STM32F405RGT6TR LQFP-64(10x10)

STM32F405RGT6V LQFP-64(10x10)

STM32F405RGT6W LQFP-64(10x10)

STM32F405RGT7 LQFP-64(10x10)

STM32F405RGT7TR LQFP-64(10x10)

STM32F405VGT6 LQFP-100_14x14x05P

STM32F405VGT6TR LQFP-100(14x14)

STM32F405VGT7 LQFP-100(14x14)

STM32F405VGT7TR LQFP-100(14x14)

STM32F405ZGT6 LQFP-144_20x20x05P

STM32F405ZGT7 144-LQFP

STM32F407

STM32F407G-DISC1

STM32F407IEH6 UFBGA-201

STM32F407IET6 LQFP-176_24x24x05P

STM32F407IGH6 UFBGA-201(10x10)

STM32F407IGH6TR 201-UFBGA

STM32F407IGH7 UFBGA-201(10x10)

STM32F407IGT

STM32F407IGT6 LQFP-176_24x24x05P

STM32F407IGT7 LQFP-176(24x24)

STM32F407VCT6

STM32F407VE

STM32F407VET

STM32F407VET6 LQFP-100_14x14x05P

STM32F407VET6TR 100-LQFP

STM32F407VET7

STM32F407VG

STM32F407VGT

STM32F407VGT6 LQFP-100_14x14x05P

STM32F407VGT6TR LQFP-100

STM32F407VGT7 LQFP-100

STM32F407VGT7TR LQFP-100(14x14)

STM32F407ZET6 LQFP-144_20x20x05P

STM32F407ZET7 LQFP-144(20x20)

STM32F407ZG

STM32F407ZGT6 LQFP-144_20x20x05P

STM32F407ZGT6TR LQFP-144

STM32F407ZGT7 LQFP-144

STM32F410C8U6 UFQFPN-48(7x7)

STM32F410CBT3 LQFP-48(7x7)

STM32F410CBT6 LQFP-48(7x7)

STM32F410CBU3 UFQFPN-48

STM32F410CBU6 UFQFN-48

STM32F410R8T6 64-LQFP

STM32F410RBT6 LQFP-64_10x10x05P

STM32F410RBT7 LQFP-64(10x10)

STM32F410TBY6TR WLCSP-36

STM32F411CCU6

STM32F411CCU6TR UFQFPN-48

STM32F411CCY6

STM32F411CCY6TR WLCSP-49

STM32F411CEU6 UFQFPN-48

STM32F411CEU6TR UFQFPN-48(7x7)

STM32F411CEY6

STM32F411CEY6TR WLCSP49

STM32F411RCT6 LQFP-64

STM32F411RCT6TR -

STM32F411RE

STM32F411RET6 LQFP-64_10x10x05P

STM32F411RET6TR LQFP-64(10x10)

STM32F411RET7 64-LQFP

STM32F411VCH6 UFBGA-100(7x7)

STM32F411VCT6 LQFP-100(14x14)

STM32F411VCT6TR LQFP-100(14x14)

STM32F411VEH6 UFBGA-100(7x7)

STM32F411VEH6TR

STM32F411VET6 LQFP-100

STM32F411VET6TR LQFP-100(14x14)

STM32F412CEU6 UFQFPN-48(7x7)

STM32F412CGU6 UFQFPN-48(7x7)

STM32F412CGU6TR UFQFPN-48(7x7)

STM32F412RET6 LQFP-64_10x10x05P

STM32F412RET6TR LQFP-64(10x10)

STM32F412REY6TR 64-UFBGA，WLCSP

STM32F412RGT6 LQFP-64_10x10x05P

STM32F412RGT6TR LQFP-64(10x10)

STM32F412RGY6

STM32F412RGY6TR WLCSP-64(3.62x3.65)

STM32F412VEH6 UFBGA-100(7x7)

STM32F412VET3 LQFP-100(14x14)

STM32F412VET6 LQFP-100(14x14)

STM32F412VET6TR LQFP-100(14x14)

STM32F412VGH6 100-UFBGA

STM32F412VGT6 LQFP-100-14x14x05P

STM32F412VGT6TR LQFP-100(14x14)

STM32F412ZEJ6 UFBGA-144(10x10)

STM32F412ZET6 LQFP-144(20x20)

STM32F412ZGJ6 UFBGA-144(10x10)

STM32F412ZGJ6TR UFBGA-144(10x10)

STM32F412ZGT6 LQFP-144

STM32F413CGU6 UFQFPN-48(7x7)

STM32F413CHU3 48-UFQFN 裸露焊盘

STM32F413CHU6 UFQFPN-48(7x7)

STM32F413RGT6 LQFP-64

STM32F413RHT3 LQFP-64(10x10)

STM32F413RHT6 64-LQFP

STM32F413VGH6 UFBGA-100(7x7)

STM32F413VGT3 LQFP-100(14x14)

STM32F413VGT6 LQFP-100(14x14)

STM32F413VGT6TR LQFP-100(14x14)

STM32F413VHT6 LQFP-100(14x14)

STM32F413ZGJ6 UFBGA-144

STM32F413ZGT6 LQFP-144(20x20)

STM32F413ZHJ6 144-UFBGA

STM32F413ZHT6 LQFP-144(20x20)

STM32F415OGY6TR 90-UFBGA，WLCSP

STM32F415RGT6 LQFP-64_10x10x05P

STM32F415RGT6TR LQFP-64(10x10)

STM32F415VGT6 LQFP-100_14x14x05P

STM32F415VGT6TR LQFP-100(14x14)

STM32F415ZGT6 LQFP-144(20x20)

STM32F417IEH6 201-UFBGA

STM32F417IET6 LQFP-176(24x24)

STM32F417IGH6 UFBGA

STM32F417IGT6 LQFP

STM32F417IGT7 LQFP-176(24x24)

STM32F417VET6 LQFP-100(14x14)

STM32F417VGT6 LQFP-100

STM32F417VGT6TR LQFP-100

STM32F417VGT7 LQFP-100(14x14)

STM32F417ZET6 144-LQFP

STM32F417ZG

STM32F417ZGT6 LQFP-144

STM32F417ZGT6TR

STM32F417ZGT7

STM32F423CHU6 UFQFPN-48(7x7)

STM32F423RHT6 LQFP-64(10x10)

STM32F423RHT6TR LQFP-64(10x10)

STM32F423VHT6 LQFP-100(14x14)

STM32F423ZHJ6 UFBGA-144(10x10)

STM32F423ZHT6 LQFP-144(20x20)

STM32F427AGH6 UFBGA-169(7x7)

STM32F427AIH6 UFBGA-169(7x7)

STM32F427IGH6 UFBGA-201

STM32F427IGH6TR 201-UFBGA

STM32F427IGH7 UFBGA-201

STM32F427IGT6 LQFP-176_24x24x05P

STM32F427IIH6 UFBGA-201(10x10)

STM32F427IIH6TR 201-UFBGA

STM32F427IIH7 UFBGA-201(10x10)

STM32F427IIT6 LQFP-176

STM32F427IIT7 LQFP-176(24x24)

STM32F427VGT6 LQFP-100_14x14x05P

STM32F427VGT6TR LQFP-100(14x14)

STM32F427VIT6 LQFP-100_14x14x05P

STM32F427VIT6TR 100-LQFP

STM32F427VIT7

STM32F427VIT7TR LQFP-100(14x14)

STM32F427ZGT6 LQFP-144_20x20x05P

STM32F427ZGT6TR -

STM32F427ZIT6 LQFP-144_20x20x05P

STM32F427ZIT7 LQFP-144(20x20)

STM32F429AGH6 169-UFBGA

STM32F429AIH6 UFBGA-169(7x7)

STM32F429BET6 208-LQFP

STM32F429BGT6 LQFP-208_28x28x05P

STM32F429BIT6 LQFP-208_28x28x05P

STM32F429BIT7 LQFP-208(28x28)

STM32F429IEH6 UFBGA-201

STM32F429IET6 LQFP-176_24x24x05P

STM32F429IGH6 UFBGA-201

STM32F429IGT6 LQFP-176_24x24x05P

STM32F429IIH6 UFBGA-201

STM32F429IIH6TR

STM32F429IIT6 LQFP-176_24x24x05P

STM32F429NEH6 216-TFBGA

STM32F429NGH6 TFBGA-216(13x13)

STM32F429NIH6 TFBGA-216

STM32F429NIH7 TFBGA-216(13x13)

STM32F429VET6 LQFP-100_14x14x05P

STM32F429VET6TR LQFP-100(14x14)

STM32F429VGT6 LQFP-100_14x14x05P

STM32F429VGT6TR LQFP-100(14x14)

STM32F429VIT6 LQFP-100_14x14x05P

STM32F429ZET6 LQFP-144_20x20x05P

STM32F429ZGT6 LQFP-144_20x20x05P

STM32F429ZGT6TR LQFP-144(20x20)

STM32F429ZGY6TR WLCSP-143(4.52x5.55)

STM32F429ZIT

STM32F429ZIT6 LQFP-144_20x20x05P

STM32F429ZIT6TR LQFP-144(20x20)

STM32F429ZIT6U

STM32F429ZIY6

STM32F429ZIY6TR WLCSP-143(4.52x5.55)

STM32F437AIH6 UFBGA-169(7x7)

STM32F437IGT6 176-LQFP

STM32F437IIH6 UFBGA-201

STM32F437IIH6TR UFBGA-201

STM32F437IIT6 LQFP-176(24x24)

STM32F437VGT6 100-LQFP

STM32F437VIT6 LQFP-100(14x14)

STM32F437VIT6TR LQFP-100(14x14)

STM32F437VIT7 LQFP-100(14x14)

STM32F437ZGT6 LQFP-144(20x20)

STM32F437ZIT6 LQFP-144(20x20)

STM32F437ZIT7 LQFP-144(20x20)

STM32F439BIT6 LQFP-208(28x28)

STM32F439IGH6 UFBGA-201

STM32F439IGT6 LQFP-176

STM32F439IIH6 201-UFBGA

STM32F439IIT6 LQFP-176(24x24)

STM32F439NGH6 TFBGA-216(13x13)

STM32F439NIH6 TFBGA-216(13x13)

STM32F439VGT6 LQFP-100(14x14)

STM32F439VIT6 100-LQFP

STM32F439ZGT6 LQFP-144(20x20)

STM32F439ZGY6TR WLCSP-143(4.52x5.55)

STM32F439ZIT6 LQFP-144(20x20)

STM32F446MCY6TR UFBGA-81

STM32F446MEY6TR WLCSP-81(3.80x3.69)

STM32F446RCT6 LQFP-64

STM32F446RCT6TR 64-LQFP

STM32F446RCT7 LQFP-64(10x10)

STM32F446RCT7TR LQFP-64(10x10)

STM32F446RET6 LQFP-64_10x10x05P

STM32F446RET6TR 64-LQFP

STM32F446RET7 LQFP-64(10x10)

STM32F446VCT6 LQFP-100

STM32F446VET6 LQFP-100_14x14x05P

STM32F446VET6TR LQFP-100(14x14)

STM32F446VET7 LQFP-100(14x14)

STM32F446ZCH6 UFBGA-144

STM32F446ZCJ6 UFBGA-144(10x10)

STM32F446ZCT6 LQFP-144_20x20x05P

STM32F446ZEH6 144-UFBGA

STM32F446ZEJ6 UFBGA-144(10x10)

STM32F446ZEJ6TR UFBGA-144(10x10)

STM32F446ZEJ7 UFBGA-144(10x10)

STM32F446ZET6 LQFP-144(20x20)

STM32F446ZET7 144-LQFP

STM32F469AGH6 BGA-169(7x7)

STM32F469AIH6 UFBGA-169(7x7)

STM32F469AIY6TR WLCSP-168(4.89x5.69)

STM32F469BET6 LQFP-208(28x28)

STM32F469BGT6 208-LQFP

STM32F469BIT6 LQFP-208(28x28)

STM32F469BIT7 LFQFP-208(28x28)

STM32F469IGH6 201-UFBGA

STM32F469IGT6 LQFP-176(24x24)

STM32F469IIH6 UFBGA-201

STM32F469IIT6 LQFP-176_24x24x05P

STM32F469NEH6 TFBGA-216(13x13)

STM32F469NGH6 TFBGA-216(13x13)

STM32F469NIH6 TFBGA-216(13x13)

STM32F469VET6 LQFP-100(14x14)

STM32F469VGT6 LQFP-100

STM32F469VIT6 100-LQFP

STM32F469ZET6 LQFP-144(20x20)

STM32F469ZGT6 LQFP-144(20x20)

STM32F469ZIT6 144-LQFP

STM32F479BGT6 LQFP-208(28x28)

STM32F479IIT6 176-LQFP

STM32F479NGH6 TFBGA-216(13x13)

STM32F479NIH6 -

STM32F479VGT6 100-LQFP

STM32F722IEK6 UFBGA-176(10x10)

STM32F722IET6 LQFP-176(24x24)

STM32F722RCT6 64-LQFP

STM32F722RET6 LQFP-64_10x10x05P

STM32F722RET7 LQFP-64(10x10)

STM32F722VCT6 LQFP-100(14x14)

STM32F722VET6 LQFP-100_14x14x05P

STM32F722ZCT6 144-LQFP

STM32F722ZET6 LQFP-144(20x20)

STM32F723IEK6 UFBGA-201(10x10)

STM32F723IET6 LQFP-176(24x24)

STM32F723ZCT6 LQFP-144(20x20)

STM32F723ZEI6 UFBGA-144(7x7)

STM32F723ZET6 LQFP-144(20x20)

STM32F723ZET7 LQFP-144(20x20)

STM32F730R8T6 LQFP-64

STM32F730V8T6 LQFP-100

STM32F730Z8T6 LQFP-144(20x20)

STM32F732RET6 LQFP-64(10x10)

STM32F743IIT6

STM32F745IEK6 UFBGA-201

STM32F745IET6 LQFP-176(24x24)

STM32F745IET7 LQFP-176(24x24)

STM32F745IGK6 UFBGA-201

STM32F745IGT6 LQFP-176(24x24)

STM32F745VEH6 100-UFBGA

STM32F745VEH6TR 100-UFBGA

STM32F745VET6 LQFP-100_14x14x05P

STM32F745VGH6 TFBGA-100(8x8)

STM32F745VGT6 LQFP-100_14x14x05P

STM32F745ZET6 144-LQFP

STM32F745ZGT6 LQFP-144

STM32F745ZGT7 LQFP-144(20x20)

STM32F746BET6 LQFP-208(28x28)

STM32F746BGT6 LQFP-208(28x28)

STM32F746BGT7 LQFP-208(28x28)

STM32F746G-DISCO Module

STM32F746IEK6 UFBGA-176(10x10)

STM32F746IET6 LQFP-176(24x24)

STM32F746IGK6 UFBGA-201

STM32F746IGK7 UFBGA-201

STM32F746IGT6 LQFP-176

STM32F746IGT7 LQFP-176(24x24)

STM32F746NEH6 216-TFBGA

STM32F746NGH6 TFBGA-216

STM32F746NGH6U

STM32F746NGH7 TFBGA-216(13x13)

STM32F746VET6 LQFP-100_14x14x05P

STM32F746VET6TR LQFP-100(14x14)

STM32F746VGH6 TFBGA-100(8x8)

STM32F746VGT6 LQFP-100_14x14x05P

STM32F746VGT7 LQFP-100(14x14)

STM32F746ZET6 144-LQFP

STM32F746ZGT6 LQFP-144_20x20x05P

STM32F746ZGT7 LQFP-144(20x20)

STM32F750N8H6 TFBGA-216(13x13)

STM32F750V8T6 LQFP-100

STM32F750Z8T6 LQFP-144

STM32F756BGT6 LQFP-208(28x28)

STM32F756IGT6 LQFP-176(24x24)

STM32F756NGH6 TFBGA-216(13x13)

STM32F756VGH6 TFBGA-100(8x9)

STM32F756VGT6 LQFP-100(14x14)

STM32F756ZGT6 LQFP-144(20x20)

STM32F765BGT6 LQFP-208(28x28)

STM32F765BIT6 LQFP-208(28x28)

STM32F765IGK6 UFBGA-201

STM32F765IGT6 LQFP-176(24x24)

STM32F765IIK6 201-UFBGA

STM32F765IIT6 176-LQFP

STM32F765IIT7 LQFP-176(24x24)

STM32F765NGH6 TFBGA-216(13x13)

STM32F765NIH6 TFBGA-216(13x13)

STM32F765NIH7 TFBGA-216(13x13)

STM32F765VGH6 100-TFBGA

STM32F765VGT6 LQFP-100

STM32F765VIH6 TFBGA-100(8x8)

STM32F765VIT6 LQFP-100

STM32F765ZGT6 LQFP-144(20x20)

STM32F765ZGT7 144-LQFP

STM32F765ZIT6 144-LQFP

STM32F765ZIT7 LQFP-144(20x20)

STM32F767BGT6 LQFP-208_28x28x05P

STM32F767BIT6 LQFP-208_28x28x05P

STM32F767IGK6 201-UFBGA

STM32F767IGT6 LQFP-176_24x24x05P

STM32F767IIK6 UFBGA-201(10x10)

STM32F767IIT6 LQFP-176_24x24x05P

STM32F767NGH6 216-TFBGA

STM32F767NIH6 BGA-216

STM32F767NIH7 TFBGA-216(13x13)

STM32F767VGT6 LQFP-100

STM32F767VGT7 LQFP-100(14x14)

STM32F767VIH6 TFBGA-100(8x8)

STM32F767VIT6 LQFP-100_14x14x05P

STM32F767VIT7 LQFP-100(14x14)

STM32F767ZGT6 LQFP-144_20x20x05P

STM32F767ZIT6 LQFP-144_20x20x05P

STM32F769AIY6TR WLCSP-180(5.5x6)

STM32F769BGT6 LQFP-208(28x28)

STM32F769BIT6 LQFP-208_28x28x05P

STM32F769IGT6 LQFP-176_24x24x05P

STM32F769IIT6 LQFP-176(24x24)

STM32F769NGH6 TFBGA-216(13x13)

STM32F769NIH6 TFBGA-216(13x13)

STM32F777BIT6 208-LQFP

STM32F777IIK6 UFBGA-201

STM32F777IIT6 LQFP-176(24x24)

STM32F777IIT7 LQFP-176(24x24)

STM32F777NIH6 TFBGA-216

STM32F777NIH7 216-TFBGA

STM32F777VIH6 TFBGA-100(8x8)

STM32F777VIT6 100-LQFP

STM32F777ZIT6 LQFP

STM32F779AIY6

STM32F779AIY6TR WLCSP-180(5.5x6)

STM32F779BIT6 LQFP-208(28x28)

STM32F779IIT6 LQFP-176(24x24)

STM32F779NIH6 TFBGA-216(13x13)

ICGOODFIND Summary: In the ever-changing global semiconductor industry, the strategic layout of STMicroelectronics in the Chinese market is undoubtedly the focus of the industry. ICGOODFIND has always been closely following the industry dynamics. Through a series of measures such as cooperating with Chinese enterprises to produce 40nm MCU, STMicroelectronics focuses on both current cost control and revenue growth, and also looks to future market share expansion and technology exchange and integration, showing its unique strategic vision and firm confidence in the Chinese market. This "counter-trend" layout in a complex international situation not only paves a new path for its own development but also provides a new example for global semiconductor industry cooperation. We look forward to the smooth implementation of STMicroelectronics' strategic plan in the Chinese market to achieve mutual benefit and win-win results. At the same time, we hope that more enterprises can accurately grasp opportunities in the global market, actively promote industry innovation and collaborative development, and contribute to global technological progress.

#STMicroelectronics #STM32 #ST #electronics #MCU #icgoodfind

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g-nicerf · 7 months ago

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Multi-Band Coverage Satellite Communication Module: Flexibly Adapting to Multiple Application Scenarios

The LoRa1121 module utilizes SEMTECH's LR1121 chip, an ultra-low-power, long-range transceiver that supports both global ISM band and 2.4GHz communication. The LoRa1121 supports LoRa and (G)FSK modulation in the Sub-GHz and 2.4GHz bands, as well as Sigfox® modulation in the Sub-GHz band, and long-range frequency hopping spread spectrum (LR-FHSS) in the Sub-GHz, 1.9-2.1GHz, and 2.4GHz ISM bands. The LR1121 complies with the physical layer requirements of the LoRaWAN® specifications released by the LoRa Alliance®, while remaining highly configurable to meet the needs of various applications and proprietary protocols.

Sub-GHz (150-960 MHz)

Frequency Range: Supports 433/470/868/915 MHz, and can be customized for frequencies between 150 and 960 MHz.

LoRa Modulation Rate: In the Sub-GHz band, the LoRa modulation rate ranges from 0.091 Kbps to 62.5 Kbps. Although the modulation rate is relatively low, LoRa's long-range transmission and strong anti-interference capabilities enable stable communication even at low bandwidths.

FSK Modulation Rate: The FSK modulation rate ranges from 0.6 Kbps to 300 Kbps. FSK modulation offers a higher modulation rate, suitable for applications requiring faster data transmission, though its transmission distance is shorter, making it appropriate for local data transmission.

Main Advantages: The Sub-GHz band excels in long-distance communication with a receiving sensitivity of up to -144 dBm @ BW=62.5 KHz, SF=12. It maintains efficient reception even at very low signal strengths, greatly enhancing the reliability of long-distance communication. The Sub-GHz band offers strong penetration and long-distance coverage capabilities.

S-Band (1.9 GHz - 2.2 GHz)

Frequency Range: 1900 MHz to 2200 MHz, covering satellite communication bands.

LoRa Modulation Rate: In the S-band (1900 MHz to 2200 MHz), the LoRa modulation rate ranges from 0.292 Kbps to 87.5 Kbps. Compared to the Sub-GHz band, the S-band LoRa modulation rate is slightly higher, making it particularly suitable for satellite communication and remote coverage applications, while maintaining long communication distances and low power consumption.

Main Advantages: The S-band is designed specifically to support satellite communication, suitable for long distances and scenarios with no ground network coverage. It has a receiving sensitivity of up to -132 dBm @ BW=125 KHz, SF=12. With high sensitivity, it maintains effective communication even at lower signal strengths, making it ideal for long-distance satellite links.

2.4 GHz Band

Frequency Range: 2400–2500 MHz, a globally used ISM band. LoRa Modulation Rate: In the 2.4 GHz band, the LoRa modulation rate ranges from 0.476 Kbps to 87.5 Kbps. This band supports higher transmission rates and maintains good stability over short distances, making it suitable for applications with relatively large data volumes. Main Advantages: This band supports higher data transfer rates, suitable for high-speed communication needs over short to medium distances, and is legally usable worldwide, ensuring good compatibility.

LR-FHSS (Long Range Frequency Hopping Spread Spectrum) Applicable Bands: Sub-GHz, S-Band, 2.4 GHz

LR-FHSS Technology: By hopping between multiple frequencies, LR-FHSS significantly enhances the system's resistance to interference and extends transmission distances. In the Sub-GHz, S-Band, and 2.4 GHz bands, LR-FHSS notably improves the stability and range of data transmission.

Communication Protocol Support

Supported Protocols: Supports Sigfox protocol and LR-FHSS (LoRa Time-Frequency Hopping Spread Spectrum Technology). These technologies and protocols further enhance communication interference resistance and device connectivity. LoRaWAN Protocol: The LoRa1121 supports the LoRaWAN communication protocol, functioning as a LoRaWAN node for integration into existing LoRaWAN networks, providing reliable and flexible IoT connectivity solutions.

Characteristics of Sub-GHz Wireless Communication

Sub-GHz wireless communication operates at frequencies below 1 GHz and offers several advantages, including long-distance transmission, low power consumption, lower frequency congestion, and strong penetration capabilities. It is widely used in various applications.

Long-Distance Transmission: Sub-GHz signals have favorable propagation characteristics, allowing them to penetrate obstacles such as walls and vegetation. Consequently, under similar power conditions, the transmission distance is typically greater than that of higher frequency bands like 2.4 GHz, making it suitable for applications requiring wide-area coverage.

For details, please click：https://www.nicerf.com/products/ Or click：https://nicerf.en.alibaba.com/productlist.html?spm=a2700.shop_index.88.4.1fec2b006JKUsd For consultation, please contact NiceRF (Email: sales@nicerf.com).

#wireless module #lora module

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rabbikhan03 · 8 months ago

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Persona Music Review: Hollywood-Quality, Copyright-Free Tracks Videos

Persona Music is your go-to platform for licensing thousands of copyright-cleared tracks, straight from Hollywood and TV productions. With Persona Music, you can easily access and license the same tracks used by top Hollywood studios and TV networks, ensuring your content is backed by professional, high-quality soundtracks.

Discover music from popular Marvel and Disney trailers, Emmy award-winning soundtracks, and hit TV shows like Keeping Up With The Kardashians. With Persona Music, there’s no need to worry about copyright claims, thanks to the platform's integration with YouTube’s Content ID system, which allows you to whitelist your channel and prevent content strikes.

Curated Playlists from Industry Experts

Persona Music provides curated playlists created by top content professionals, including Hayden Hillier-Smith, editor for YouTuber Mr. Beast. The music library is vast, with over 10,000 tracks pulled from major film trailers and TV shows. Whether you're looking for classical, jazz, electronic, or cinematic music, you’ll find tracks to match your project’s mood and style.

No matter what type of content you're creating—whether it's a documentary, vlog, or gaming video—Persona Music gives you access to the best music available for video production.

Explore a Variety of Music Genres

Get inspired by the platform’s wide selection of music genres. Whether you're looking for electronic, jazz, classical, or cinematic, Persona Music's extensive library is designed to help creators like you find the perfect track.

With advanced filtering options, you can easily narrow down your search by mood, instruments, video type, or intended usage. This ensures you can find the perfect song to complement your project. And because you’re licensing tracks from the same pool as Hollywood and top TV networks, you’re sure to elevate your content to a professional level.

A Platform Built for Creators

Persona Music doesn’t just provide tracks; it’s designed to make the process of finding, licensing, and applying music as seamless as possible. Its interface allows you to filter and discover tracks based on various factors such as mood, instruments, and project type, ensuring the best match for your content.

Additionally, as long as you're subscribed, Persona Music guarantees that your content will be protected from copyright claims forever. The platform integrates with YouTube’s Content ID system to quickly detect and clear claims, giving you the peace of mind to continue creating without the threat of demonetization.

No More Copyright Worries

Persona Music removes the headache of downloading music from unreliable sources. Now, you can access music used by primetime TV shows and blockbuster movies without worrying about copyright strikes or static-filled tracks. With Persona Music, your content will sound just as good as the pros.

Get lifetime access to Persona Music today and take your video content to the next level!

Plans & Features

Deal Terms & Conditions:

Lifetime access to Persona Music.

Includes all future Social Creator (Tier 1), Creator Pro (Tier 2), or Omnipotent Node (Tier 3) plan updates.

No codes or stacking—just choose the plan that’s right for you.

License must be activated within 60 days of purchase.

You can upgrade or downgrade between license tiers within 60 days of purchase.

Available for new Persona Music users and returning AppSumo customers.

Existing Persona Music users can upgrade their license to access additional features and limits.

Previous AppSumo customers will be grandfathered into any new features and feature limits.

Features Included in All Plans:

Unlimited track downloads.

Pricing Tiers:

License Tier 1 – $29 (normally $144):

1 user.

Unlimited track downloads and copyright-free usage on social platforms.

License Tier 2 – $59 (normally $240):

Unlimited users.

Includes all features from Tier 1 plus usage for paid ads, client work, and commercial projects.

License Tier 3 – $149 (normally $350):

Unlimited users.

Includes everything from Tier 2 plus access to the SFX library, 10 AI searches per day, and 3 on-demand stem generations per day.

With Persona Music, you can license the same tracks used by Hollywood studios and major TV networks, elevating your video content while protecting yourself from copyright issues. Try it today with a 60-day money-back guarantee and see the difference professional-grade music can make!

Click Here for Access

#saas #digital products #video #video interview #video musical #video making #persona music

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javamyblog · 1 year ago

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Unveiling Preorder Traversal of Binary Trees

144. Binary Tree Preorder Traversal Given the root of a binary tree, return the preorder traversal of its nodes’ values. Example 1: Input: root = [1,null,2,3] Output: [1,2,3] Example 2: Input: root = [] Output: [] Example 3: Input: root = [1] Output: [1] Constraints: The number of nodes in the tree is in the range [0, 100]. -100 <= Node.val <= 100 In the realm of binary trees,…

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qizhimengqxd · 1 year ago

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100% Polyester DTY Yarn 100D/144F Semi Dull Raw White Sim S Twist AA A B

DTEX is between 100 and 115, consisting of 144 filaments with network nodes of 60 to 100 per meter. It is suitable for use on warp knitting machines, water jet machines, and circular knitting machines, and is mostly used as weft thread, mostly for clothing fabrics and home textiles.

#Polyester DTY Yarn

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bdwebit · 1 year ago

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Fast and Secure VPS

Select KVM VPS Plan SLICE 2 $18/month 2 GB Guaranteed RAM 50 GB Disk Storage 2 TB Bandwidth vCPU 1 Core IPv4 1 Virtualization KVM SLICE 4 Popular $36/month 4 GB Guaranteed RAM 100 GB Disk Storage 4 TB Bandwidth vCPU 2 Core IPv4 1 Virtualization KVM SLICE 8 $72/month 8 GB Guaranteed RAM 200 GB Disk Storage 8 TB Bandwidth vCPU 3 Core IPv4 1 Virtualization KVM SLICE 16 $144/month 16 GB Guaranteed RAM 40 GB Disk Storage 16 TB Bandwidth vCPU 6 Core IPv4 1 Virtualization KVM Select OpenVZ VPS Plan SLICE 2 $12/month 2 GB Guaranteed RAM 50 GB Disk Storage 2 TB Bandwidth vCPU 1 Core IPv4 1 Virtualization OpenVZ SLICE 4 Popular $24/month 4 GB Guaranteed RAM 100 GB Disk Storage 4 TB Bandwidth vCPU 2 Core IPv4 1 Virtualization OpenVZ SLICE 8 $48/month 8 GB Guaranteed RAM 200 GB Disk Storage 8 TB Bandwidth vCPU 3 Core IPv4 1 Virtualization OpenVZ (register a edu domain) SLICE 16 $144/month 16 GB Guaranteed RAM 400 GB Disk Storage 16 TB Bandwidth vCPU 6 Core IPv4 1 Virtualization OpenVZ VPS Features Multiple OS Support High Performance Storage Fast SSD Storage Instant Deploy OpenVZ or KVM Monthly Pricing Additional IPS rDNS supported Gigabit Network Control Panel Access Fair Share vCore allocations Enterprise grade hardware

What is the difference between KVM & OpenVZ? Ans. KVM VPS is a true virtualisation where it has it’s own kernel, independent from the host node. While OpenVZ VPS has no independent kernel and relies on the host for respond for system calls. OpenVZ has it’s own benefit and KVM has his own. If your application needs true dedicated resources and specific kernel module, you have no other option than KVM to go. But if you think your business would grow overtime and you need upgrade fast ASAP or any modification on your VPS as fast as possible, then OpenVZ is your choice. OpenVZ provides more flexibility of use. Though different benchmarks has proved KVM outperform in performance with OpenVZ. OpenVZ containers are usually cheaper.

What OS options are available? Ans. We provide OS templates of Debian, Centos, Ubuntu, Archlinux, Cern Linux, Funtoo, gentoo linux, Openwall, Altlinux, Suse, Scientific, Fedora, Open Suse, Slackware.

Do you have any high spec (CPU/RAM) OpenVZ plan? Ans. We try to provide as many flexible plans as possible. To view a complete list of plans and comparison, please check going this link: OpenVZ plans

Does the plan include any Hosting Control Panel License like cPanel/WHM? Ans. No. A Virtual Server Instance would need to have it’s own cPanel License or any other hosting control panel if you would like to use. cPanel license for VPS/VSI would cost 15$ a month if you would like to purchase through us. We deal our all licenses.

Can I upgrade my plan later? Ans. Yes, you can. You can do the package upgrade from your Clientarea. This will pro-rated bill you for the upgrades till your anniversary date.

What control panel comes with VPS? Ans. We used Virtualizor VPS Control Panel. Virtualizor is a stable platform and runs by the people who made Softaculous.

Can I order more IPs? Ans. No. Yes, you can. But you have to provide proper justification on your IP usage.

How is bandwidth billed? Ans. Bandwidth allocation showed in our price comparison page or the order page is per month basis. Quota resets on the first day of the month. If you reach your bandwidth limit before the last day of the month, your VPS will be suspended. You can order additional bandwidth or upgrade your package from your Clientarea.

What payment methods are accepted? Ans. We accept More than 10 Payment Method We Support for local and international customer's. See our all Payment Method.

#VPS #KVM VPS #OpenVZ

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govindhtech · 2 years ago

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Explore Intel Nova Lake CPUs’ 2026 features

2021 was the year that saw the first discovery of information pertaining to the Nova Lake family of processors developed by Intel. Back then, it was projected that the family would debut in 2025 with a significantly revised Core architecture aimed at the desktop enthusiast market. This was the expectation. This would be analogous to the manner in which AMD’s Ryzen processors of the first generation enhanced overall performance.

There have been no new advancements pertaining to this family since the previous update; however, currently, sources close to Moore’s Law Is Dead claim that Nova Lake is still in the works, despite the fact that its launch window has been unexpectedly shifted to H2 2026. MLID also provides a number of preliminary specifications, although it is highly doubtful that these will be finalized at this juncture due to the vast time horizon.

In the second half of the year 2026, Nova Lake, the successor of Arrow Lake Refresh, would be made available for public consumption. It would have up to 180 MB of last level cache, as well as P-cores with a maximum of 16 rentable units, E-cores with a maximum of 32, and LP cores with a maximum of 4. It is possible that it was fabricated utilizing nodes from either Intel’s own 14A manufacturing process or TSMC’s N2P fabrication process.

Even though Intel has claimed that it should no longer be dependent on TSMC’s manufacturing nodes by the year 2025, it looks that Nova Lake may still be built mostly on TSMC’s N2P nodes, if not fully on Intel’s replacement of the 18A node, which MLID refers to as the 14A node. This is despite the fact that Intel has stated that its dependence on TSMC’s manufacturing nodes should halt by the year 2025. Everything rests on whether or not Intel can successfully ramp up manufacturing of angstrom nodes over the next few years.

For the time being, it is projected that Nova Lake will consist of a maximum of sixteen rentable unit performance cores (owing to developments in hyperthreading technology), thirty-two improved efficiency cores known as Arctic Wolf, and four low power efficiency cores. The performance that this core count should deliver should be sufficient to compete with whatever comes after AMD’s Zen6 processors in the year 2026.

This central processing unit (CPU) should be able to compete with whatever comes after AMD’s Zen6 processors because it offers single-thread performance boosts of 20–40% higher than Arrow Lake and a massive boost of 60+% higher than the next Raptor Lake Refresh. It is projected that high-end Core Ultra 9 processors may include as much as 180 MB of cache memory at the very last level, while Core Ultra 7 computers may acquire as much as 144 MB of cache memory.

The information that was received through MLID’s prior leaks indicated that AMD will most likely debut its Zen6 processors by the end of 2025, while the launch of the Zen7 might take place as early as 2027. If Intel were to launch Nova Lake at the end of 2026, the company’s primary objective would be to play catch-up and unseat Zen6 as the market leader, not Zen7.

Because of this, Intel’s release schedule would become wildly out of sync, and the company would continue to lag behind AMD by one step for the foreseeable future. This would put Intel in a worse position than AMD.

#govindhtech #technology #technews #news #cpu #amd #intel #arrowlake #novalake

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the-bottle-tree · 2 years ago

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Mexican Bird of Paradise

Name: Mexican Bird of Paradise

Latin Name: Caesalpinia Mexicana

Type: Shrub / Tree

Plant Date: here when we moved in

Area:

Color: Gold Blooms

Bloom Time: Summer thu Early Fall

Light: Full Sun

Water: Low. Drought tolerant.

Fertilizer: Water soluble fertilizer in summer months

Deadhead: Trim off yellowing bits to tidy up plant. Occasional pruning is needed to keep it manageable and neat.

Propagation: You can propagate bird of paradise (Caesalpinia species) by seeds, cuttings, simple layering or dividing plants. Softwood cuttings can be taken in the spring and early summer. Sever the stem between the leaf joints or nodes, just below a node.

Temp: Can survive hot weather.

Width: 10 to 15 ft

Height:10 to 15 ft

Planting Distance: 120" – 144"

Edible: No. The seeds are poisonous.

Medicinal: unknown

Magical: unknown

Notes: attracts butterflies & hummingbirds

#plant journal #Mexican bird of paradise #vegetable garden wall

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astroseri · 4 years ago

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Astrology Aspects

Between your Planets Explained

Conjunction 0° - Agreement

The Planets have the same objective or focus. Action strength. Exaggeration or amplitude. Energetic cumulation, concentration or Focus. Wavestarter.

Sextile 60° - Mental mastery

Shows skill, opportunities or ease of communication. There is an ability to intellectualize or be versatile in this area of life. Sextiles show mental processes and coordination between the planets that are involved. You have an ability to form connections, ideas and opportunities with these planets. Mental agility.

A semi-sextile is 30° - facilitates action and materialization.

One planet is in the “12th house” of the other, facilitating it through providing creativity, vision and opportunities. The 2nd reinforces the creative effectiveness of the 1st. You materialize things much more easily through a semi-sextile. This is no “minor” aspect.

Quintile 72° - Spiritual Wealth. (rare aspect)

shows an ability to move resources or value through the planets. It is similar to the sextile but it has to do with material opportunities and the movement of resources. It’s like an ability to formulate or create value.

It indicates Spiritual Wealth. Like a spiritual credit card. In this area you have the resources to spend at will. It indicates talent especially regarding people, negotiation and business.

A biQuintile is 144° - It is similar to the quintile but it is an ability to give value through these planets at will, rather than to formulate it. It has more to do with creative talents rather than intelligence.

This aspect shows where you are actively of service to others and where you have value to others. As a result, you are able to get your desires met or acquire power and people’s resources in exchange. In this area of life you have the ability to build at will.

144° angles form a pentagram. The symbol of the Pentacle in Tarot (aka suit of Coins).

Trine 120° - Ease

An ease to act, express or perform in this area. You use these to your advantage to achieve goals. And these planets have an easy time creating and acting successfully on your impulses and objectives.

This is an area where you inspire others unconsciously. You also have an innate ability to innovate or to create with these planets. In a literal sense, these are your gifts.

Square 90° - Challenge

A challenging aspect that is intended for self-development through spiritual lessons. These areas are under spiritual development. Though they are challenging, you can also become highly successful in these areas. You are able to build something great here, as indicated by this aspect. A structure. You will tower above others and become an authority here if you do the self-development your soul wanted for the square.

Squares with the earth sign rulers are more favorable and bring material results (Venus, North Node & Saturn)

A SEMI-square (45°) is a disconnect in the expression of two planets. Intentions don’t materialize because the second planet/point would rather remain stuck or comfortable in its ways. Or has developed habits that are incompatible with the intentions of the first.

Sesqui-Square 135° - The Star ⭐️

Shows a disconnect between what others expect of you and how you choose to act. Or a disconnect from your own comfort vs. your actions/goals. It shows areas that you are brave or rebellious. This aspect is experienced like a child leaving the home... or a person rebelling from structure.

The 135° angles form an 8-pointed star (Like the star from Tarot).

SesquiSquares show you will surely face challenges and resistance from others who don’t want to see you shine or succeed. It has to do with expansion and reforming the establishment of yourself or others.

Your actions can dismantle structure, comfort zones or your public image (indicated by the tower).

Destruction and reform through rebellion, individuality or self expression.

It can sometimes indicate one planet acting to the detriment of the other’s comfort. Or a planet that is being stubbornly rebellious. Especially when the 1st planet is the moon or Saturn.

The Renowned German astrologer Thomas Ring (born 1892- d. 1983) described it as a "tear in the structure".

Inconjunction 150° - Complexity

The planets have contradictory values or focus than each other, and one planet operates in a way that is irritable to the first. These planets are in conflict.

It is the opposite of a semi-sextile. It symbolizes dis-ease or complexity (rather than ease or materialization). Can be remedied through calculated action, practicality and attention to detail. This aspect creates complex situations that require skill, organization and calculation from the planets being affected.

This aspect can cause messy results and it complicates the actions and goals of the planets. It causes confusion, contradiction or ungrounded action when the planets are approached carelessly.

Opposition 180° - Disagreement

A disagreement or need to balance between planets. Necessary for some greater cause or for the sake of a greater reality. This aspect provides natural perspective and usually is experienced through others in addition to within oneself.

Oppositions give you advantages when dealing with others and in your relationships when they are respected. Otherwise they could signify an imbalance where one planet thrives to the detriment of the other (this causes a partial unfulfillment in the natives life). Planets are In each others perception. It feels like you cannot do one, without it affecting the other. Oppositions give versatility and self-awareness; a trait of ♎️.

Venus oppositions are favorable, though sometimes difficult. By having increased diplomacy and sociability and seeing others’ point of view you gain favor from others.

Thanks for Reading,

@astroseri

ask me anything

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