サーバ Server     Last updated on 2011/2555     11     10, a full moon day;

_ IFF 101; 102; 106; 109;  ; ; ABC; computer system () Using HTML♯; ...

2555: IFF DNS, Domain Name System, usamyanmar.net     Satellite DNS; GPS triangulate;

ア	メ	リ	カ	緬	甸	.	網	usa	myanmar
.	net	Satellite	D	N	S	system
	domain	name	server	,	DNS	;
DNS	,	Domain	Name	System	;

IFF ro (linear) server ... ; ... ;

IFF ro (dynamic) server ... ; ... ;

Concerning TV, Video, ... , commonly seen broadcasting frames are ro/1, ro/2, and ro/4; ro/6 or ro/8 are rarely seen in public channels; 9 vs. division method is very difficult in reverse engineering ... ; In addition to linear, in addition to dynamic, IFF structure e.g. Solar Trees with RFID servers by Network Topologies, also see: structured sequence numbers e.g. C, D, E, F, G, ... ; IFF structure e.g. devices switch either MOBILE or NORMAL, also see: Automotives ... ;

2554: IFF _TIP_ by usamyanmar.net, also see: Grid;     ; NOT GPS;

2554: IFF Satellite_DNS_Domain, サーバServer=451.742 AND GPS;

2554: IFF numerological dimension, サーバServer=31911.123;

2553: IFF autorun.inf, サーバSERVER=usamyanmar.net;

;DOS
;DOSWINDOWS

2553 SATELLITE DNS, testing bounceDistance=3 with xm.inf within 24mm natural time in ACT1 stage; For ACT2 stage, also see: SATELLITE DNS with RFID for "flying automotives", NOT able to sync with a Myanmar's imaginary ACT3 hyper-spacecraft's IN CK, FN CK, ... yet; Therefore, develop DNS to be in ns, ps, ... with RFID ... also with SYNC;

2553: after 20+ years of research & development, usamyanmar.net solves "fault" among サーバservers; "fault" makes サーバservers' temperature higher; there is a technical term called "fault tolerance" among RAID implementation; before installation of usamyanmar.net Product into サーバserver1, サーバserver2, サーバserver3, ... [3 or more computers], サーバservers board's temperature should be measured 1st, so that usamyanmar.net really solves such high heat servers to be low heat servers, because "light rate bridge vs. light rate CRC" has been developed:

- usamyanmar.net multi-functional system requires a drive, for example x: , therefore by using partition tool, network engineer can create a drive called e.g. x: ; IFF manufacture built-in drive e.g. d:, and then d: drive [drive can be any drive_letter anyway]

- copy *.* from usamyanmar.net Product into the drive; the reason WHY サーバservers become hot inside, is: systems have been registered as (Default) REG_SZ [notice that millisecond M with impedance Z aka MZ has been internally swap as SZ where S+ystem to be System ..., after 1995 WHEN CDFS with "light rate" began, millisecond is no longer a solution, so companies deploy bridge among buses ... ]

- click on usamyanmar.net's 1 & only 108^th day configured digital certificate into the system, so サーバserver will be protected by standard

- click on usamyanmar.net's Publisher.reg and install into the system, so one of the AI global characters [also see: OS.txt] will automatically, artificially and intelligently solve サーバserver's state's "fault" in milliseconds with its "light rate bridge vs. light rate CRC"

- do not modify any files [because 5000+ items within 1 second with 0.23 second cursors ...], leave the drive x: as it is ... , and then let the サーバserver run as usual as before ... , now is the time to check the computer's heat, temperature, ... , and enjoy サーバserver computer becomes low heat server and perform as usual as before; so, usamyanmar.net solves "fault" ... ;

2552:

ACT3 network <> ACT2 network <> Back Ends aka BE <> Front Ends aka FE <> Client / サーバServer, and the fastest architecture is light as frequency so that within a few seconds worldwide, and then song aka Audio as signal pattern as frequency [for basic understanding, also see: parallel potential inner space environment], and then clients can do computing in frame format along with architectural specification for example: 150x tracks ... ; There is no other ways, therefore, Time.Space.Action Eastern philosophy is universal true, and ACT2, ACT3 stage parallel time development is in progress ... ; Also see: Cable ACT3 network 25530 <> 10710 ACT2 network;   Computers;   Grid vs. Others;   Network Design Principle;

2010 usamyanmar.net Numerological Dimensional サーバ Server:

	1	2	3	4	5	6	7	8	9
O	1	2	3	4	5	6	7	8	9
O	9	1	2	3	4	5	6	7	8
O	8	9	1	2	3	4	5	6	7
O	7	8	9	1	2	3	4	5	6
O	6	7	8	9	1	2	3	4	5
O	5	6	7	8	9	1	2	3	4
O	4	5	6	7	8	9	1	2	3
O	3	4	5	6	7	8	9	1	2
O	2	3	4	5	6	7	8	9	1
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2010 BES, Blackberry Enterprise サーバServer; Blackberry Presenter, supporting VideoIn, VideoOut, via VGA, via S-Video, from its Blackberry device;

2009 iSNS サーバservers: by running iSCSI Initiator, connect network, can configure parameters such as Discovery Target portals with port i.e. 3260, iSNS サーバservers, ... ;

2009 Windows Home サーバServer, Progress:    1,1,1 [min, max, current]    ; notice that tap key for example [    9@ 1001    inside \\Desktop\.. KEYBOARD.sys ] is deployed for bi-directional design inside scripts, also see: \\Desktop\*.* and its sub folder... and also notice that ColdBoot.ini file has been engineered for not only boot but also cold aka system power [AC, DC, battery, ...] off and then boot, so that usamyanmar.net' PRODUCT [version C23 or later] can be used not only Desktop but also (サーバserver); IFF testing system, please use usamyanmar.net PRODUCT as a last option, IFF no other options are available WHILE installing サーバserver computer, because semi-conductor technology, nano-processor technology, MUX *ch* on board configuration, 24mm Natural Time, and OS engineering, are out of a Myanmar knowledge ... ;

IFF certificate, also see: ..\\Certificate\www.usamyanmar.net.cer.p7b, ... ;

2008: Print サーバserver,

Brother print サーバserver i.e. HL-21* compact laser printers are built in with web サーバserver, by using HTTP, and also web browser dependent so that the サーバservers only work with specific web browsers, and also plug and play RJ45, USB, Wireless; http://printer's IP address, for example: http://192.168.1.5 ;

Web サーバServers, hardware in 2008, world wide web services have been served by web サーバservers such as Apache, Microsoft IIS, Netscape Enterprise, ... ; Also see: geisttek.com, GEIST Technology's low cost web サーバservers;

2007:

Microsoft ISA サーバserver, connectivity, firewalls, 2007;

MOSS, Microsoft Office SharePoint サーバServer, content search;  

WAP gateway サーバserver, wireless Internet, in 2007, to serve mobile notebooks, to serve handhelds, in addition to ISP server phone number + user name + password, mobile phone service provider provides WAP gateway サーバserver name and its port number;

2006:

Note: In 2006, very very large data within very very short period of time can be 2~4 Gbps, [www.nec.co.jp/press/en/0606/2601.html];

2005:

BladeSymphony, 2005 Hitachi; Region specific = North America; World's 1st hardware virtualization, works with Intel's Itanium 2 Virtualization Technology; World's 1st 667 MHz Intel Itanium 2 サーバserver deployment;

Command: lpq -s サーバserverName for print サーバservers, printer サーバservers, ... ;

Water cooled サーバserver: 2005 NEC Express5800/110Ca; Intel Pentium R 4 processor; 3EGHz; 512MB memory, and support up to 4GB; Disk-less; RAID 5; Silent <30dB operating noise; World's 1st water cooled サーバserver;

2003:

RFID サーバserver vs. others, RFID サーバserver(s) can be universal, including ACT1, ACT2, ..., also see: RFID サーバserver;

Microsoft Windows サーバServer 2003 >> Start >> Manage Your サーバServer IFF servers, サーバServer.Win2003Platform.xls in Excel >> Add or remove a role >> and then, サーバserver role can be configured as: ASP.NET Application サーバserver, Domain controller (Active Directory), DHCP サーバserver, DNS サーバserver Graphics knowledge based needed, File サーバserver, IIS Application サーバserver, POP3 Mail サーバserver, Print サーバserver, Remote access / VPN サーバserver, SMTP Mail サーバserver, Streaming media サーバserver, Terminal サーバServer, and WINS サーバserver; Also see: User;

Windows Terminal サーバServer 2003 <> X.25 network provider <> X.121 remote サーバservers are Alascom/Tymnet/MCI, Compuserve, Eicon X.PAD, InfoNet, InfoNet X25, InfoNet, Alternate, SITA Group Network, SprintNet, Alternate, SprintNet, Standard, Telematics, Transpac, ... ;

Windows サーバServer 2003 components are, Start >> Control Panel >> Add or Remove Programs >> Windows Components >> Windows Setup... >>

iconAccessories and Utilities including Accessibility Wizard, Accessories, and Communications;

iconApplication サーバServer including Application サーバServer Console, ASP.NET, Enable network COM+ access, Enable network DTC access, Internet Information Services (IIS), and Message Queuing;

iconCertificate Services including Certificate Services CA, and Certificate Services Web Enrollment Support;

iconE-mail Services including POP3 Service, and POP3 Service Web Administration;

iconFax Services;

iconIndexing Service;

iconInternet Explorer Enhanced Security Configuration including For administration groups, and For all other user groups;

iconManagement and Monitoring Tools including Connection Manager Administration Kit, Connection Point Services, Network Monitor Tools, Simple Network Management Protocol, WMI SNMP Provider, and WMI Windows Installer Provider;

iconNetworking Services including Domain Name System (DNS), Dynamic Host Configuration Protocol (DHCP), Internet Authentication Service, RPC over HTTP Proxy, Simple TCP/IP Services, and Windows Internet Name Services (WINS);

iconOther Network File and Print Services including File Services for Macintosh, Print Services for Macintosh, and Print Services for Unix;

iconRemote Installation Services;

iconRemote Storage;

iconTerminal サーバServer;

iconTerminal サーバServer Licensing;

iconUDDI Services including UDDI Services Administration Console, UDDI Services Database Components, and UDDI Services Web サーバServer Components;

iconUpdate Root Certificates;

iconWindows Media Services including Multicast and Advertisement Logging Agent, Windows Media Services, Windows Media Services Administrator for the Web, and Windows Media Services snap-in;

2000 ~

For Monbusho level system experts only: assuming that after setting fixed IP address for switching network connection, and either DNS resolved or WINS resolved address for a proxy, and then test all world class サーバservers; To do so, test サーバservers should be at switching network side;

Scalar サーバserver, i.e. Linux TX-7 HPC サーバserver with SX-8 vector may deploy GFS to serve very very large data within very very short period of time; World's the fastest computer's scalable サーバserver, in early 21st century; SAN / FC, NFS okay;

サーバServer analysis without imaging ... WHERE Menu contains buttons "clickable" "functional key combinations" ... , WHERE Left pane contains systems' constraints such as directory, drive, ... , WHERE Right pane contains data, file, path, ... ; before analyzing a サーバserver WHAT kind サーバserver must be known i.e. either  L AND R, L OR R, M AND R, M OR L, and so on, ... ; At time t, WHEN a pin is being predicted to be clicked WHICH means WHENEVER button exists, a pin line must be internally ready to process/perform [must understand syntax vs. semantic 1st, because pins are limited, buttons are unlimited, because pins perform specific task:, buttons also perform specific task:, because buttons can be embedded, pins also can be embedded, because ... ], basically, a computer's interface can be classified into L, M, R, ... ; To understand all possible combination of L, M, R, ... , both hardware and software must be understood; usamyanmar.net recommends lesser pin count design;

i.e. to analyze a certificate, in common, file format such as *.cer, *.p7b, *.pfx, ... ; IFF *.cer, file format must be either DER encoded binary X.509, or Base-64 encoded X.509; Certificate's Field and Value must be known for example Field.Version = Value.V3; Field.Serial number = Value.hex ...; Field.Signature algorithm = Value.sha1RSA; Field.Issuer = Value.user@domain_name; Field.Valid from = Value.Time; Field.Valid to = Value.Time; Field.Subject = Value.user@domain_name; Field.Public key = Value.RSA(2048 Bits); Field.Basic Constraints = Value.Subject Type = Company Name, Path Length Constraint = 8; Field.Thumbprint algorithm = Value.sha1; Field.Thumbprint = Value.hex ...; Field.Friendly name = Value.Computer aka name; Field.Enhanced key usage (property) = Value.Secure Email, サーバServer Authentication [also see: usamyanmar.net.cer's サーバserver authentication]; After understanding file format, and fields' values for authentication, WHO must be understood to WHOM known as Certification Authorities of Trusted Root;

i.e. to analyze a FE, Front Ends adapter, (IP address =is (IP address AND Subnet mask)) = A pair of set {...}, therefore a pair of [set] {IP address U Subnet mask}, therefore a pair of {TRUE, TRUE}; IFF comma is used for multiple addresses, for example 192.168.1.6, 192.168.1.29, 192.168.1.67 IP addresses with Subnet Mask 255.255.255.0, 255.255.255.0, 255.255.255.0 and notice that the concept of "pair" is a must and use of commas, therefore 2 commas with 3 IP addresses must have 2 commas with 3 Subnet mask addresses, otherwise will be NOT TRUE;

i.e. to analyze a FE default gateway, (Default Gateway =is (Default Gateway AND Metric)); In common i.e. default gateway 192.168.1.1 AND metric 1; Metric can vary between 1 and 9999;

i.e. to analyze a FE DNS address: if blank the adapter will obtain address from DNS サーバserver i.e. [Automatic] in [Status/Value], OR the adapter does not use [Not used]; The reason OR might be for BE, Back Ends, and DNS suffix such as .com, .net, .org, ... are in BE by network provider [Remark: to logon into any BE サーバservers such as domain controllers, ISP root サーバservers, Network Provider name and Network Provider password are needed; Do not confuse with Administrator logon; Approx. 100,000+ computers might have 1 Network Provider logon; Because, it is impossible to know all 3 panes, because it is restricted and limited, because trillions and trillions of currencies ... so it is recommended NOT TO KNOW ALL 3 PANES];

i.e. to analyze a FE WIN address: same concept as DNS except if blank the adapter will not [Not used] addresses;

i.e. to analyze a Proxy サーバserver [also see: Internet vs. Proxy サーバServer]: in common 1 proxy サーバserver is set for 1 LAN, to do so Internet Properties>>Connections>>LAN Settings>>and then define Proxy サーバServer address and port, for example Address: www.usamyanmar.net   Port: 8080 ; In common, never use IP address, use only resolved named address;

i.e. to analyze a Proxy サーバserver: in the following Proxy サーバserver diagram, notice that one or more items [such as: Address; Bypass proxy サーバserver for local addresses; Exceptions; FTP; Gopher; HTTP; Secure; Socks; Use a proxy サーバserver for your LAN; ... ] must be set to deploy a proxy サーバserver; Accordance with functional time, Exceptions cannot be set without Address; "local comma file" is called character string, and "local" stands for local systems, "file" stands for files; Remark: can use Left pane, Right pane concept;

i.e. to analyze benchmark research and development records:

1st to understand concurrency and its concurrent applications regardless of whether by parallel computing, or by serial computing; In hardware, channels must be understood before understanding concurrency, to do so find and read the usage channel in SchematicSymbols.htm; In software, for example, MSDN semaphores in concurrency must be understood;

2nd to understand scale, scalable, for each channel, in hardware, N frequencies exist within 1 bandwidth, and those bandwidths in several channels must be scaled, so called scalable. In software, pipelining architecture provides multi-threads computing. In this concept, frequency is more hardware oriented, and architecture is more software oriented. In SQL query system, WHEN scale, users quantity can be increased without losing speed;

3rd to understand benchmark, for testing systems, for testing computer's processing speed [usage throughput was used], ... ; In 2007, Fujitsu's benchmarking [http://www.fujitsu.com/global/services/computing/server/sparcenterprise/key-reports/benchmarks/sparce-feature070511.html ]has been reported as SAP SD 2-tier for online transactions' response time, SPEC OMPL2001 OpenMP for concurrent applications, Linpack for floating point mathematical calculations and linear equations calculations, STREAM for memory bandwidths, ... ;

1995: Internet vs. Proxy サーバServer Settings,

also see: Proxy Options... ;

IF Direct connection to the Internet is TRUE, no need to set up proxy サーバserver.

IFF Connect to the Internet through the following proxy サーバserver is TRUE, and then サーバServer Address: IP address here, Port: Port integer number here, and then User Name: User name here, Password: Password here. [Remark: can be Import from Windows IFF online already]

IFF Connect to the Internet using the following SOCKS4 サーバserver, and then サーバServer Address: IP address here, Port: Port integer number here, and then User Name: User name here, Password: Password here.

IFF Win XP >> DirectX.Cpl >> DirectX Diagnostic Tool >> More Help >> MSInfo... >> System Info >> Internet Setting >> Internet Explorer >> Connectivity >> AutoProxyDetectMode   Enabled;

1990 ~ FTP サーバServer,

Common FTP Properties are サーバServer address: IPv4, IPv6 addresses with Port: number default is 21, Login user name: user name, Password: password, Display name:; Advanced Options are Initial directory:, Timeout (in sec.):, Keep alive frequency (in sec. 0 = disable):, Use proxy settings, Passive mode, Host type: such as Auto Detect, DCTS, MachTen, ABC's サーバServer, TCP/Connect||, UNIX, VM/CMS, VMS, WebSTAR, and Windows NT, LIST options: such as -|A, -a|, -A; Notice that old mainframe computers use FTP access; Also see: filezilla-project.org; ipswitch.com; ... ;

1989 ~ 1995:

;$p$g    command;;

;IFF AppData aka users OR 9 aka 0409 aka Tab aka $RECYCLE.BIN aka ... ;

;123456789; IFF Windows Safe Mode: wait for a WHILE, at the DOS prompt, hit Tab key, again and again ... WHICH prompts current OS step by step ... ; therefore, system can be further study ... such as C#, commands, ... ; also see: command NOT Enter;

IFF 2011/2555 network topology, using artificial intelligence ( daisy chain) analyze 285 current system's load balancing (i.e. system's log 95 form or system's sign 95 form), IFF the daisy chain is unbalance, automatic load balancing the network ... ;

sāsana year: IFF autorun.inf, サーバSERVER=usamyanmar.net;

mode, compatibility mode;

share; artificial intelligence secure the system's share ... ;

...

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