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Fortios 7.4最佳实践
Change Log 5 Getting started 6 Registration 6 Basic configuration 6 Resources 7 Administrator access 9 Management network 9 User authentication for management network access 9 Who can access the FortiGate 9 What can administrators access 10 How can users access the FortiGate 10 Administrative settings 10 Day to day operations 12 Configuration changes 12 Policy configuration changes 13 Logging and reporting 14 Performance monitoring 14 Identity and access management 15 Certificates 17 Certificate usage 17 Security profiles 19 Opened ports for Authentication Override在Web滤清器中替换消息中20 SSL/TLS深度检查21迁移23使用配置文件手动迁移配置24远程访问26 SSL VPN 26 IPSEC VPN 27非VPN 27非VPN远程访问27高可用性和高可用性28高可用性28高可用性28高可用性28
最佳实践 - Fortios 7.2
Change Log 5 Getting started 6 Registration 6 Basic configuration 6 Resources 7 Administrator access 9 Management network 9 User authentication for management network access 9 Who can access the FortiGate 9 What can administrators access 10 How can users access the FortiGate 10 Administrative settings 10 Day to day operations 12 Configuration changes 12 Policy configuration changes 13 Logging and reporting 14 Performance monitoring 14 Identity and access management 15 Certificates 17 Certificate usage 17 Security profiles 19 Opened ports for Authentication Override在Web滤清器中替换消息中20 SSL/TLS深度检查21迁移23使用配置文件手动迁移配置24远程访问26 SSL VPN 26 IPSEC VPN 27非VPN 27非VPN远程访问27高可用性和高可用性28高可用性28高可用性28高可用性28
最佳实践-Fortios 7.0.0
Change Log 5 Getting started 6 Registration 6 Basic configuration 6 Resources 7 Administrator access 9 Management network 9 User authentication for management network access 9 Who can access the FortiGate 9 What can administrators access 10 How can users access the FortiGate 10 Administrative settings 10 Day to day operations 12 Configuration changes 12 Policy configuration changes 13 Logging and reporting 14 Performance monitoring 14 Identity and access management 15 Certificates 17 Certificate usage 17 Security profiles 19 Opened ports for Authentication Override在Web滤清器中替换消息中20 SSL/TLS深度检查21迁移23使用配置文件手动迁移配置24远程访问26 SSL VPN 26 IPSEC VPN 27非VPN 27非VPN远程访问27高可用性和高可用性28高可用性28高可用性28高可用性28
tio_2-bi_2o_3-的光学和光催化特性...
1材料与可持续发展实验室(M2D),大学Bouira,1000,阿尔及利亚,阿尔及利亚2号,贝加亚大学技术学院环境工程实验室,06000 Bejaia,Algeria 3实验室,Algeria 3实验室3材料和催化剂的物理学化学,bejia 000 000,BEJIA,BEJIA,BEJIA,BEJIA,bejia 000,物理化学分析(CRAPC),Bou-ismaïl42004,Tipaza,Algeria 5实验室材料,能源,水和环境的过程。Faculty of Science and Technology, University of Bouira, 10000 Bouira, Algeria 6 University of Rennes, National School of Rennes chemistry, CNRS, ISCR - UMR6226, 35000 Rennes, France 7 Laboratory E2lim (Eau Environnement Limoges), University of Limoges, 123 avenue Albert Thomas, 87060 Limoges, France 8 Center for Energy and Environmental Materials, Ho Chi Minh,越南700000,基本和应用科学研究所,900000,环境与化学工程学院,Duy Tan University,Duy Tan University,Da Nang,550000,越南10自然资源的管理和估值和质量保证。SNVST教师,大学,Bouira 10000,阿尔及利亚SNVST教师,大学,Bouira 10000,阿尔及利亚
水热温度处理对 Ca2SiO4:Tb3þ 荧光变化的影响
研究结构缺陷及其对光学材料光学性质的影响是至关重要的,因为在制备用于显示应用的材料时会涉及不同的方法。镧系离子掺杂是一种简单的结构探测策略,它有助于识别结构缺陷。使用 Pechini (C 2 SP) 和水热法 (C 2 SH) 制备纯和铽 (Tb 3 +) 掺杂的 Ca 2 SiO 4 (C 2 S) 粒子。从 SEM 图像中可以看出,Tb 3 + 掺杂的 C 2 SP 粒子比 C 2 SH 粒子更高度聚集。TEM 研究证实,在 180 和 200 C 的高水热温度下制备的 C 2 SH (C 2 S:180H 和 C 2 S:200H) 的粒度减小。 Tb 3 + 掺杂的 C 2 S:180H 和 C 2 S:200H 发生荧光发射猝灭。与 Tb 3 + 掺杂的 C 2 SP、C 2 S:180H 和 C 2 S:200H 相比,在 140 C 下制备的 Tb 3 + 掺杂的 C 2 SH 的发射强度较高。在 X 射线光电子能谱 (XPS) 价带谱中,实验评估了与纯 C 2 SP 和 C 2 S:180H 四面体硅酸盐的上能级价带谱相关的 O2p 轨道的变化。由于硅酸盐单元的扭曲导致对称性降低,从而猝灭了发射,这已由 XPS 价带谱和 Tb 3 + 发射线证实。这项研究表明,与水热法相比,Pechini 法更适合制备 Tb 3 + 掺杂的 C 2 S 荧光粉,特别是在高温下用于固态显示器和闪烁体应用。© 2020 作者。由 Elsevier BV 代表河内越南国立大学提供出版服务。这是一篇根据 CC BY 许可开放获取的文章(http://creativecommons.org/licenses/by/4.0/)。
fortios 7.6.1发行说明
Change Log 6 Introduction and supported models 7 Supported models 7 FortiGate 6000 and 7000 support 7 Special notices 8 FortiManager support for updated FortiOS private data encryption key 8 FortiGate cannot restore configuration file after private-data-encryption is re-enabled 9 Hyperscale incompatibilities and limitations 10 FortiGate 6000 and 7000 incompatibilities and limitations 10 SSL VPN removed from 2GB RAM models for tunnel and Web模式10 2 GB RAM FortiGate模型不再支持与Fortios代理相关的功能10 FortiGate VM内存和升级11 Hyperscale NP7 NP7硬件限制11 GUI与IPSEC TCP在同一界面11 ssl VPN上的冲突不受IPSEC TCP的冲突。默认值19表尺寸20的变化20新功能或增强功能21云21 GUI 22 LAN EDGE 22网络22网络23策略与物体26 SD-WAN 27 SD-WAN 27安全织物30安全构造30安全配置文件30系统31用户和身份验证32 VPN 32 WIFI Controller 33 ZTNA 33 ZTNA 33升级信息33升级信息35 FortInet Security FaftInet Problade 35 FortInet diffore fort Grade diffore fort Grade difgrade to Grade difgrade difgrade difgrade difgrade 37
fortios 7.6.0发行说明
Change Log 6 Introduction and supported models 8 Supported models 8 FortiGate 6000 and 7000 support 8 Special notices 9 Hyperscale incompatibilities and limitations 9 FortiGate 6000 and 7000 incompatibilities and limitations 9 SSL VPN removed from 2GB RAM models for tunnel and web mode 9 2 GB RAM FortiGate models no longer support FortiOS proxy-related features 10 FortiGate VM memory and upgrade 10 Hyperscale NP7 hardware limitation 10 FortiGate cannot restore configuration file 10 Changes in CLI 12 Changes in GUI behavior 13 Changes in default behavior 14 Changes in table size 15 New features or enhancements 16 Cloud 16 GUI 16 LAN Edge 17 Log & Report 20 Network 21 Policy & Objects 26 SD-WAN 27 Security Fabric 28 Security Profiles 29 System 31 User & Authentication 34 VPN 34 ZTNA 35 Upgrade information 37 Fortinet Security Fabric upgrade 37 Downgrading to previous firmware版本39固件图像校验和39 FortiGate 6000和7000升级信息39 CP-ACCEL模式的默认设置2GB内存模型40产品集成和支持41虚拟化环境42语言支持42 SSL VPN VPN支持43
TiO2 支持天然 - e-space
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用于内存计算的完全 CMOS 兼容被动式 TiO2 忆阻器交叉开关
HAL 是一个多学科开放存取档案库,用于存放和传播科学研究文献,无论这些文献是否已出版。这些文献可能来自法国或国外的教学和研究机构,也可能来自公共或私人研究中心。
嵌入SiO2
x ge x /sio 2界面,而不是通过脱位成核。该机制导致嵌入式层的形态演化和局部肿胀,这是由SIO 2的粘性流促进的。在这些温度下,Si 1-X Ge X膜在粘性SIO 2中扩展,以最大程度地减少应变能。几何相分析证实,横向膨胀会导致GE凝结过程中积累的应变的松弛。我们建议这种现象可能是文献中已经报道的屈曲机制的起源。这项研究表明,Sio 2可以作为有效的符合性的符合性的底物,用于无缺陷的无缺陷GE RICE SI 1-X GE X薄膜。基于SIO 2矩阵粘弹性的新通用松弛过程可以应用于SI 1-X GE X膜以外的许多其他系统。这里制造的高质量无缺陷富富富富膜可以作为SI基板上各种2D或3D材料异质整合的良好模板。