RT-Thread配置工具，次要有几个命令要用到的：menuconfig和scons--target-mdk5.

创惟GL3224最新固件1539版本最新版本固件全网首发，2022.8.31，适用于芯片gl3224版本带独立flash存储模块升级，gl3224-1539.bin，支持3.0的、双卡双读的读卡器，主流高速读卡器固件，可用烧录或者GL3224updatetoolv1.0进行升级，软件升级需注意软件能否支持flash芯片支持，如果不支持请修改软件config.ini文件。
使用烧录夹完美支持全部flash型号

完满国际物品生成器打开物品生成器.这个要放在服务端的\ffpwserver\pwserver\gamed\config文件夹下面.要不读取不到信息.改好属性.

(更多概况、使用方法，请下载后细读README.md文件)mtk-eip93\n联发科EIP93加密驱动程序\nEIP-93的Linux加密驱动程序。
该加密引擎在MediatekMT7621SoC中可用。
\n这应该添加到您的设备DTS或更好地添加到mt7621.dtsi：\ncrypto:crypto@1e004000{\nstatus=\"okay\";\n\npatible=\"mediatek,mtk-eip93\";\nreg=;\n\ninterrupt-parent=;\ninterrupts=;\n};\n999-patch是将mtk-eip93添加到drivers/crypto文件夹下的Kconfig/Make文件中添加crypto/mtk-eip93文件夹到linux驱动\n或者：\n将999-patch添加到OpenWrt/target/linux/ramips/patch-5.1

PCIExpress3.0isthelatestgenerationofthepopularperipheralinterfacefoundinvirtuallyeveryPC,server,andindustrialcomputer.Itshighbandwidth,lowlatency,andcost-to-performanceratiomakeitanaturalchoiceformanyperipheraldevicestoday.EachnewgenerationofPCIExpressaddsmorefeatures,capabilitiesandbandwidth,whichmaintainsitspopularityasadeviceinterconnect.MindShare'sbookstakethehardworkoutofdecipheringthespecs,andthisonefollowsthattradition.MindShare'sPCIExpressTechnologybookprovidesathoroughdescriptionoftheinterfacewithnumerouspracticalexamplesthatillustratetheconcepts.Writteninatutorialstyle,thisbookisidealforanyonenewtoPCIExpress.Atthesametime,itsthoroughcoverageofthedetailsmakesitanessentialresourceforseasonedveterans.次要内容如下：PCIExpressOriginsConfigurationSpaceandAccessMethodsEnumerationProcessPacketTypesandFieldsTransactionOrderingTrafficClasses,VirtualChannelsandArbitration(QoS)FlowControlACK/NAKProtocolLogicalPHY(8b/10b,128b/130b,Scrambling)ElectricalPHYLinkTrainingandInitializationInterruptDelivery(Legacy,MSI,MSI-X)ErrorDetectionandReportingPowerManagement(forbothsoftwareandhardware)2.0and2.1Features(suchas5.0GT/s,TLPHints,andMulti-Casting)3.0Features(suchas8.0GT/s,andanewencodingscheme)ConsiderationsforHighSpeedSignaling(suchasEqualization)

作者：ProfessorKwang-ChengChen，ProfessorRamjeePrasad出书：Wiley2009目录Prefacexi1WirelessCommunications11.1WirelessCommunicationsSystems11.2OrthogonalFrequencyDivisionMultiplexing(OFDM)31.2.1OFDMConcepts41.2.2MathematicalModelofOFDMSystem51.2.3OFDMDesignIssues91.2.4OFDMA211.3MIMO241.3.1Space-TimeCodes241.3.2SpatialMultiplexingUsingAdaptiveMultipleAntennaTechniques271.3.3Open-loopMIMOSolutions271.3.4Closed-loopMIMOSolutions291.3.5MIMOReceiverStructure311.4Multi-userDetection(MUD)341.4.1Multi-user(CDMA)Receiver341.4.2SuboptimumDS/CDMAReceivers37References402SoftwareDefinedRadio412.1SoftwareDefinedRadioArchitecture412.2DigitalSignalProcessorandSDRBasebandArchitecture432.3ReconfigurableWirelessCommunicationSystems462.3.1UnifiedCommunicationAlgorithm462.3.2ReconfigurableOFDMImplementation472.3.3ReconfigurableOFDMandCDMA472.4DigitalRadioProcessing482.4.1ConventionalRF482.4.2DigitalRadioProcessing(DRP)BasedSystemArchitecture52References583WirelessNetworks593.1MultipleAccessCommunicationsandALOHA603.1.1ALOHASystemsandSlottedMultipleAccess613.1.2SlottedALOHA613.1.3StabilisedSlottedALOHA643.1.4ApproximateDelayAnalysis653.1.5UnslottedALOHA663.2SplittingAlgorithms663.2.1TreeAlgorithms673.2.2FCFSSplittingAlgorithm683.2.3AnalysisofFCFSSplittingAlgorithm693.3CarrierSensing713.3.1CSMASlottedALOHA713.3.2SlottedCSMA763.3.3CarrierSenseMultipleAccesswithCollisionDetection(CSMA/CD)793.4Routing823.4.1FloodingandBroadcasting833.4.2ShortestPathRouting833.4.3OptimalRouting833.4.4HotPotato(Reflection)Routing843.4.5Cut-throughRouting843.4.6InterconnectedNetworkRouting843.4.7ShortestPathRoutingAlgorithms843.5FlowControl893.5.1WindowFlowControl893.5.2RateControlSchemes913.5.3QueuingAnalysisoftheLeakyBucketScheme9

nagios软件包汇合：Class-Accessor-0.31.tar.gzConfig-Tiny-2.12.tar.gzlibart_lgpl-2.3.17.tar.gzMath-Calc-Units-1.07.tar.gznagios-3.5.1.tar.gzNagios-Plugin-0.34.tar.gznagios-plugins-1.4.16.tar.gznrpe-2.12.tar.gzParams-Validate-0.91.tar.gzpnp-0.4.14.tar.gzRegexp-Common-2010010201.tar.gzrrdtool-1.2.14.tar.gzcheck_iostatcheck_memory.plcheck_mysql

需求软件包：gcc，gcc5.5两个安装包可在ftp服务器上下载Yum源centos6yumcleanallyum-yinstallgccgccgcc-versongcc-versionyum-yinstallgccyum-yinstallgcc–nogpgcheckrpm-Uvhhttps://packages.microsoft.com/config/centos/7/packages-microsoft-prod.rpmrpm-Uvhhttps://packages.microsoft.com/config/rhel/7/pa

在日常工作中，钉钉打卡成了我生活中不可或缺的一部分。然而，有时候这个看似简单的任务却给我带来了不少烦恼。 每天早晚，我总是得牢记打开钉钉应用，点击"工作台"，再找到"考勤打卡"进行签到。有时候因为工作忙碌，会忘记打卡，导致考勤异常，影响当月的工作评价。而且，由于我使用的是苹果手机，有时候系统更新后，钉钉的某些功能会出现异常，使得打卡变得更加麻烦。 另外，我的家人使用的是安卓手机，他们也经常抱怨钉钉打卡的繁琐。尤其是对于那些不太熟悉手机操作的长辈来说，每次打卡都是一次挑战。他们总是担心自己会操作失误，导致打卡失败。 为了解决这些烦恼，我开始思考是否可以通过编写一个全自动化脚本来实现钉钉打卡。经过一段时间的摸索和学习，我终于成功编写出了一个适用于苹果和安卓系统的钉钉打卡脚本。