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缺失:ThreatGuard的產品&微分器
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專家集合包含ThreatGuard
專家集合是analyst-curated列表,突出了公司你需要知道的最重要的技術空間。
ThreatGuard包含在1專家收集,包括可再生能源。
可再生能源
4037件
這個集合包含上遊和下遊太陽能公司,以及那些製造和銷售產品,采用太陽能技術。
最新的ThreatGuard新聞
2022年2月11日
分享女飛行員,雲安全網絡的先鋒,已經宣布新的安全特性與ThreatGuard ThreatIQ。新功能,女飛行員ThreatIQ現在提供連續的網絡行為分析,建在雲網絡結構。指紋形成基線工作負載和交通特點,分析定製為每個環境,改善隨著時間的推移,和基於簽名的威脅防禦是互補的。ThreatIQ ThreatGuard嵌入在女駕駛員安全的多重雲數據平麵,使每個網絡節點提供安全檢查和執法。本機內置分布式威脅的可見性和控製網絡數據飛機安全標識惡意流量目的地和支持基於策略的自動修複。”一家名叫PACCAR的雲基礎設施團隊的重點是快速響應我們的業務和客戶的動態需求,支持供應鏈發展的景觀,同時也向客戶提供新的全球連接服務,”達拉斯桑頓說,導演,在一家名叫PACCAR的數字服務。“女飛行員是我們建築的一個重要部分,使我們能夠提供新業務功能分層在增強本地安全多重雲網絡基礎設施。“保護在網絡層雲——是時候采取以雲為中心的安全方法。“在雲安全挑戰繼續發展,越來越多孔接觸,沒有單一的周長,”布萊恩·阿什利說,產品營銷副總裁女飛行員。“我們的客戶正在尋找多重雲原生功能網絡行為分析來幫助確保他們的關鍵業務基礎設施和提高他們的雲安全的姿勢。“傳統解決方案單獨離開差距不是cloud-aware基於簽名的傳統解決方案,隻有一個單點的檢驗,與遺留操作和功能模型。 This leaves the enterprise vulnerable to unacceptable business risks, including data loss, exfiltration, and resource hijacking, resulting in potentially devastating financial impact, not to mention loss of customer trust and significantly reduced agility. Related Posts “Enterprises and government organizations alike are aware of how public cloud introduces entirely new risk vectors, however they continue to struggle with developing and operating an architecture to properly address this exposure,” said Yves Vazquez, Sr. Manager at Accenture Federal Services. “Aviatrix is focused on supporting our mutual government customers as they seek to enhance secure cloud networking architectures.” Network Behavior Analytics – Business Value With the Network Behavior Analytics included in ThreatIQ, Aviatrix customers benefit from an enhanced security posture, resulting in reduced security risk. Security is built directly into your cloud network, as opposed to a ‘bolt-on’ afterthought, while the proactive approach reduces the time to identify unknown threats. Reducing Infrastructure Cost for Distributed Inspection and Control According to IBM 2021 Cost of Data Breach Report, “The average total cost of a data breach increased by nearly 10% year over year to $4.24 million), the largest single year cost increase in the last seven years….Costs were 80% lower for organizations with a more mature security posture leveraging AI and automation (for security anomaly detection).” By reducing the time and cost to identify and contain a breach, the Network Behavior Analytics in ThreatIQ reduce infrastructure costs while complementing existing security investments.
ThreatGuard常見問題(FAQ)
ThreatGuard總部在哪裏?
ThreatGuard總部位於勒布朗街3232號,聖安東尼奧。
ThreatGuard的最新一輪融資是什麼?
ThreatGuard的最新一輪融資是其他投資者。
ThreatGuard的投資者是誰?
ThreatGuard的投資者包括SATAI網絡。
ThreatGuard的競爭對手是誰?
BigFix ThreatGuard的競爭對手包括巴薩諾瓦的願景,FireEye, nCircle Entech太陽能和10更多。
比較ThreatGuard競爭對手
Xen項目是一個開源社區。它提供了虛擬化技術的解決方案。它成立於2003年,總部設在倫敦,英國。
太陽旨在提供多樣性的軟件,係統,服務,和微電子學,從消費電子產品,開發工具和世界上最強大的數據中心。公司的核心品牌包括Java技術平台、Solaris操作係統,MySQL數據庫管理係統,StorageTek UltraSPARC處理器。神經網絡
PhotoVolt公司成立於1994年,由伯納德·薩特,一位前美國宇航局格倫研究中心的科學家和發明家,有願景,使高強度光伏(PV“‚)集中器係統可能達到每瓦成本低於傳統光伏技術。PhotoVolt的電池技術有潛力使光伏發電係統經濟上可行的廣泛應用和成本與傳統燃料的大規模的全球市場競爭。過去14年,美國宇航局格倫研究中心的支持下,錢德拉Goradia博士和已故的著名PV克利夫蘭州立大學研究員,美國能源部資助,薩特先生成功地證明了他的發明的承諾和引入市場作為一個商業產品。2007年,PhotoVolt管理層決定加快發展高強度集中器市場,形成一個新的公司新建蒸汽& Electric co .)開發和商業化利用PhotoVolt聚光光伏係統的電池技術。新公司成功地提高了種子資金,開發了一種新的集中器設計,第一次銷售,獲得IP的許多專利申請。公司旨在給市場帶來高強度集中PV係統命名StarGen解決方案適合利用PhotoVolt細胞的優勢,同時提供“免費”‚熱能。這個係統的目的是最大限度地使用現成的組件和材料,把承諾生產太陽能以較低的價格點。PhotoVolt, 2008年公司和綠地蒸汽& Electric co .)同意合並,成為格林菲爾德太陽能公司,位於俄亥俄州克利夫蘭美國,打算將來許可其技術。管理是致力於籌集額外資本擴大生產能力在2009年及以後。
THINKFLEX太陽能結合的最有利的特點這兩個目前光伏技術。公司的模塊提供矽電池的效率和薄膜係統的靈活性,通過該公司的技術和裝配方法。結果高輸出功率、長壽命和可靠的模塊。以簡化安裝和運輸這些產品可以定製大小和形狀。公司的產品重量輕,有利的美學,很容易適應加強創造新的和綠色設計。
Anteos公司收到了SBIR項目二期格蘭特標題為:Relief-Free紅外衍射光學基於半導體材料。他們獎資助在2009年《美國複蘇和再投資法案》(公法111 - 5)和他們的項目將開發新一代的relief-free薄板衍射光學組件操作的紅外區光譜。衍射光學采用體積相位全息結構,這是紅外波長的光學記錄在半導體材料的透明使用專有的照片修改過程產生戲劇性的變化下的材料折射率與低強度光照明。這個項目的第一階段證明可行性建議的概念通過展示照片修改奈米紅外材料和製造第一個模型組件。發達技術可以立即應用於製造的衍射光學、體積相位全息光柵,板材和相位缺陷波長1.9 m,以及增透層波長8米。在二期項目的技術將被優化和應用於製造原型組件長波長的紅外衍射光學的操作,包括重要的CO2激光波長10.6和windows的大氣透明度3 - 5和8 - 12米。發達的照片修改過程的適應性很強並創建一個豐富的技術平台的製造範圍廣泛的各種各樣的市場產品。這項技術的成功實施將導致新一代的高效relief-free紅外衍射光學和sub-wavelength組件,包括衍射光柵、束器,梁牛頭刨床,半導體材料與人工雙折射,相位延遲盤子和波板。紅外衍射光學的relief-free組件基於半導體材料能夠承受高的光強度和執行複雜的管理功能。另一個重要應用是高度穩定的製造anti-reflection紅外半導體光學(AR)層。 The market for infrared diffractive optics includes defense and airspace industry, laser industry, spectral devices, sensors and detectors, night vision optics, industrial process control, material processing, cutting and welding, environmental monitoring, medical diagnostics and surgery. Anteos is a company that received a SBIR Phase II grant for a project entitled: High-Efficiency Nanocomposite Photovoltaics and Solar Cells. Their project is focused on development of an innovative technology for fabrication of high-efficiency thin film nanocomposite photovoltaic materials and solar cells taking advantage of the recently discovered effect of carrier multiplication in semiconductor nanocrystals. The proposed concept employs smart design of the solar cells providing fast and effective spatial separation of electrons and holes photo-generated in the nanocrystals. The proposed reach nanotechnology platform solves the challenging problem of electrical communications with nanoscale objects, such as nanocrystals, nanorods, nanowires, nanotubes, etc. It can be employed for development of many other nanocomposite optoelectronic devices having numerous commercial and military applications. If successful the development of new generation of high-efficiency photovoltaic materials and solar cells based on the demonstrated technology will have broad impact on the entire solar energy industry resulting in considerable energy savings and environmental protection. The technology has great commercialization potential and niche market. The proposed all-inorganic, high-efficiency, thin film, flexible nanostructured photovoltaic materials and solar cells, which can operate in extreme environment conditions and offer significant mass and volume savings, are ideally suitable for numerous applications, including power generating residential rooftops, power supplies for utility grid, emergency signals and telephones, water pumps, activate switches, battery chargers, residential and commercial lighting, etc.
M V係統的公司收到了SBIR項目二期格蘭特標題為:製造的窄帶隙Nano-crystalline SiGeC薄膜使用等離子體增強化學氣相沉積(PECVD) "技術。資助他們的他們的獎是根據2009年美國複蘇與再投資法案》項目是開發薄膜串聯太陽能電池,包括納米晶體矽和矽碳(實際和實際:C)吸收材料,與~ 20%的轉換效率。第一階段項目成功開發的一個關鍵組件,即內在實際:C帶隙,如~ 1.5 eV和具有良好的光電性能。將使用這個關鍵材料最初在第二階段製造細胞單個連接配置的效率目標~ 10%。以前,發達的“設備質量”實際材料,例如~ 1.1 ev,是用於生產太陽能電池效率~ 8%。集成這兩個設備在串聯連接配置~ 18%預計將產生的效益。進一步改善串聯連接的設備效率,~ 20%,可以實現通過使用緩衝層的p /我/ n或接口和通過增加晶粒尺寸將提高開路電壓、揮發性有機化合物。更高的效率薄膜串聯太陽能電池將至關重要實現必要的低成本實現廣泛采用的光伏發電係統。M V係統的公司收到了SBIR第一階段資助項目的標題為:製造的窄帶隙nano-crystalline SiGeC薄膜使用等離子體增強化學氣相沉積(PECVD) "技術。他們的項目將開發納米晶體SiGeC薄膜的光學帶隙(例如)1.6 - -1.8 eV的範圍,和增強吸收特征,導致低成本、高效(> 20%)光伏設備。 Previous attempts at improving the photovoltaic efficiency have not been consistent and successful. The proposed approach uses plasma-enhanced chemical vapor deposition (PECVD) technique to deposit these films, which allows greater control of the process by being able to manipulate the plasma and electron temperatures to control the ion density in the plasma, with an independent control of the process parameters. This flexibility does not exist in the currently used techniques. With the proposed technique, stable and consistent films of SiGeC can be deposited on the desired substrate at moderate temperatures. If successfully developed, this technique could provide higher efficiency solar cells for the alternative energy market. The goal of highly stable films, high deposition efficiency and process scalability for large-scale manufacturing can only be achieved if the basic process can be proven. The broader impacts of this research will be in the low-cost photovoltaic (PV) devices for power generation market. If successfully completed, this research could lead to a strong partnership between solar cell manufacturers and equipment manufacturers, leading to a potentially lucrative photovoltaics market. Currently, electricity generated with available PV devices is 3-4 times more expensive as the conventional electricity. The selected materials (Si, Ge and C) for the thin film are abundantly available, which can significantly reduce the raw materials costs. A large body of basic knowledge of the requirements of solar electricity for the competitive market already exists, which makes the development of the process with a realistic performance target easy to achieve. The main challenge for achieving this goal lies in being able to control the deposition process to assure a stable and robust process, as the previous work has not been able to achieve consistent results. The initial target of producing a triple-junction thin-film solar cell is a worthy first product demonstration, which will prove the efficacy of the proposed technique, and attract third-party funding with little difficulty.
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