Simple Solution<br />Copper Solution ( Cat 6A )<br /> Cable diameter <br /> 8mm (Patent <br /> Pending)<br /> Int’l Standard Certified (UL etc)<br /> W17.6, H20.6, D31mm<br /> Int’l Standard Certified <br />Minimized Alien-talk <br /> between near ports<br />Convenient wiring with <br /> slim structure<br />High credibility<br />Labeling, Jack, Patch <br /> cord, Panel suitable for <br /> Data center<br />Complied with TIA/EIA 568B.2-10, ISO11801 2nd Class E, TIA 942, Fcc Part 68 and KCC<br /> High Margin on Transmission Performance<br />Complied with TIA/EIA 568B.2-10, <br /> ISO11801 2nd Class E and TIA 942<br /> PVC(CMX/CM/CMR/CMP), LSZH(CMX)<br /> Improved Alien X-talk & Reduced cable <br /> diameter with ‘H’ type filler<br />Patent Pending<br />
CMR<br />CM<br />CMX<br />CMR<br />CMP<br /><ul><li>Europe</li></ul>CMX/CMrated LSZH <br />(Toxic gas generation standard is specified for LSZH to minimize the chance of loss of lives under fire.)<br />CMR/CMPrated PVC <br /><ul><li>USA</li></ul>(CMP does not make combustion of sheath & insulation under fire.)<br />Simple Solution<br />Standards & Regulations<br />Sheath<br />Usage according to<br />flame-retardant rated<br />Plenum Cable<br /> UL 910 (Plenum Test)<br />smoke density regulation<br />for high flame-retardant <br /> wiring for horizontal <br />PVC<br />Non-Plenum Cable<br /> UL 1666(Riser Test)<br />PVC<br />for risers between floors<br />The higher the level of class is, the less the loss of lives <br />by the cable is<br />Non-Plenum Cable<br /> UL 1581(VTFT Test)<br /> IEC 60332-3 <br />smoke density regulation for LSZH<br />PVC<br />LSZH<br />for horizontal cabling<br />Non-Plenum Cable<br /> UL 1581 (VW-1 Test)<br /> IEC 60332-1<br />smoke density regulation for LSZH<br />PVC<br />LSZH<br />for regular residential cases<br />
Unshield & Shield Type ( 50 u-inch gold plating) </li></ul>Face Plate<br /><ul><li>European & US type with Back box
SMB with </li></ul> Modular Jack<br />Others<br /><ul><li>110 Block with IDC
Cabinet with accessory</li></li></ul><li>Simple Solution<br />Fiber Optic Solution<br /><ul><li>LS SimpleTM Fiber Optic Cable is a highly reliable and interoperable system with the flexibility and adaptability to evolve with technological demands
Supports 10 Gigabit Ethernet applications while maintaining compatibility with existing 50um multimode systems.
Design considering natural airflow : keep of temperature inside the Rack.</li></li></ul><li>Simple Solution<br />Main Feature – space application<br />Depth Size Increase<br />Easy Adjustable<br />Exclusive Space for Power-strip<br />2*2<br />200mm<br />Equipment rail <br />RMU indication<br /><ul><li>No affection to Power-strip even if the server’s size is long.
Installing time reduction : RMU Marking, which can be easily checked by eyes.
Complete Separation of Network Cable and Power Cable : No twist between cables.
Prevention of human error : cables organization can be easily checked by eyes. </li></li></ul><li>Simple Solution<br />High Density Rack/Cabinet ( Upper Board )<br />① Upper-board<br />② Filler panel<br />Cold aisle<br />③ Cold aisle front/rear door<br />Hot aisle<br />① Upper-board<br /><ul><li> Possible to open and shutand to observe inner situation
Prevent cool air to be mixed with warm air by blocking top of Cold aisle</li></li></ul><li>Simple Solution<br />Existing rack arrangement<br />Rack arrangement after installed Upper board<br /><ul><li>Existing average temperature : 20℃
Month-Wattage of rack cooling for 400‘s : 328,572 kWh
Month-electricity charge of cooling per rack </li></ul> : $ 55 / Month($0.07per kW)<br /><ul><li>Temperature as application of UB : 16℃ (7% energy reduction per 1℃)
Month-electricity charge of cooling per rack : $40($15reduction : 28%)
Updating the database is a burden for the IT manager. </li></ul>70%<br />30%<br />Time to failure point acknowledgement<br />Time to revoery<br />MTTR(Network)<br />20%<br />80%<br />Time to failure point acknowledgement<br />Time to recovery<br />MTTR(Cabling)<br />
Simple Solution<br />IIM ( Simple View TM )<br />LS SimpleVIEW Physical Layer Management System<br /><ul><li>Patch field database is 100% accurate assuring network reliability and efficiency
Security & Risk Manangement : Asset Tracking, real time identification
Operation Efficiency : Capacity planning, Reduce Mean Time to Repair(MTTR), MACs control
A return on investment (ROI) model </li></li></ul><li>Simple Solution<br />LS SimpleVIEW Physical Layer Management System<br /><ul><li>Real time management tool to manage physical infrastructure
Provide automatic updated physical layer documentation
Assist in fault identification & troubleshooting
Support 3rd network management system</li></li></ul><li>Simple Solution<br /><ul><li>Intelligent patch panels convey changes (insertions or removals) to expanders and scanners.
Expanders and Scanners continuously monitor panels for connectivity changes.
Connectivity change monitoring is done via out-of-band signaling via hardwired attachment cables between devices.
A proprietary protocol is utilized for this purpose
Master modules communicate with expanders and scanners via direct Ethernet type attachment cables and a proprietary protocol.
Master modules communicate with the SimpleVIEW™ management system via SNMP protocol.</li></li></ul><li>31<br />19<br />60<br />Simple Solution<br />Scanner<br />Scanner<br />24<br />7<br />Scanner<br />19<br />Master<br />Expander<br />Scanner<br />Scanner<br />24<br />24<br />12<br />
Simple Solution<br />IPM ( Simple View TM )<br />LS Simple IPM Physical Layer Power Management System <br /><ul><li>One of the major concerns facing data centre planning & implementation is providing and controlling sufficient power.
Non-invasive power consumption monitoring ( SPV )
Remote rebooting / switching</li></li></ul><li>Cooling<br />Space<br />Power<br />Simple Solution<br />IPM ( Simple View TM )<br />- A large sized Data Centre consumes the same amount of Power as <br /> an average sized Town<br />- A typical Data Centre containing 1000 racks will require approximately <br /> 15 MWatt of Power [15,000 x 1kWatt electric fires]<br />- 30% of todays IT budget is spent on Power and it’s increasing<br />- Power demand is increasing [Moores Theory]<br />- Government tax on Power efficiency/Carbon Neutral <br />- Corporate Image and Policies to be seen as Environment friendly. <br />- Demand for larger kWatt/sq M foot print requirements for new Blade Server <br /> Technologies. Has led to the Development of 30-40 kWatt Cabinets<br />- Power in = Heat out which requires cooling, which requires power.<br />- Elevated Temperatures [and Humidity], will cause Pay Load equipment to fail <br /> due to increased component stressing and premature ageing<br />- Temperature is not even in a Data Centre, Hot spots will develop and move <br /> from hour to hour, day to day.<br />New Build <br />- Green sites can use the latest IIM technology. <br />- Space can be purpose planned<br />- ’Lights out’, unmanned space can be designed using LS Simple IIM Technologies<br />Retrofit <br />- Space is limited, Not purpose designed<br />- Need to integrate with existing and New technologies<br />- Cannot shut facility down, Retrofit/Refit, LS ‘Simple IIM solutions can be<br /> designed to be Non- Invasive<br />
Previous<br />Present<br />Simple Solution<br />Historical Methods of Monitoring & Control<br />- Today 21st Century Data Centers require more Power and Cooling<br />- Power supply is limited and expensive<br />- Maximization of expensive resources to minimize waste, reduce costs<br />- Maximize of Payload operations, preventative Maintenance, zero downtime, Maximization of operations<br />- Todays Data Centers cannot function without IIM solutions.<br />- Todays Data Centers are Designed and Categoried in tiers to quantify the degree of <br /> Security and resilience built into the Data Centre. <br />- Monitoring was Local only at point of entry into Data room i.e. Power Distribution boards<br />- Temperature was measured via BMS, remote from the Payload equipment.<br />- Load values / cabinet was occasionally recorded manually with a hand held CT. <br />- No accurate records, real time measuring, identification of Temperature / Power hot spots.<br />- No Monitoring, No Management, Not a problem, energy was cheap and plenty, Power foot print per sq M typically was 1-3 kWatt, easily obtained<br />
Simple Solution<br />IPM ( Simple View TM )<br />What is IPM<br /><ul><li>Intelligent Power Management
Combination of hardware and software for power distribution & usage optimization
Monitor datacenter environment</li></ul>‘Aim is to improve energy efficiency and reduce emissions’<br />
Simple Solution<br />Why Monitor ?<br />Capacity planning - typically users run out of power or cooling before anything else<br /> Need to know where energy is being used.<br /> Need to know where energy is wasted<br />Business planning & technology refresh - Understand why and where energy performance is poor, how to improve it & build business cases<br />Physical & Network security – human error a major cause of failures (audit trails) <br />‘Real time’ monitoring and alerting – early warning maximises time available to respond<br />Need to know where energy demand is going to shortly exceed capacity.<br />Eliminate downtime caused by undiagnosed environmental disturbances<br />Government Legistration : The Carbon Emission Commitment<br />
SNMP control unit can automatically sequence up Power outlets to prevent power surges. </li></li></ul><li>Simple Solution<br />SPV Kit<br /><ul><li>Non Invasive A.C. Electrical Current Monitoring unit
A small compact electrical current meter capable of measuring A.C. currents on typical data centre 16A and 32A power supply feeds.
Attachment does NOT require power down of the measured feed.
Capable of measuring A.C. electrical currents up to 60A.
Built in LED display provides two digit readout.
CL-Amp appears as a standard PDU to the PowerHawk-2, Hawk-i2, Hawk-i3 and Eagle-i units.
Uses patented technology for current measurement in the Data Centre, Computer room and PC environments.
Current measuring range 1.0 Ampere to 60 Amperes.
Holding up Raceway System</li></ul>⑩<br /><ul><li> Side Drop Bracket
Maintain Outlet Drop Slot</li></li></ul><li>Simple Solution<br />Wireless Acess Point ( Simple Fast-Point TM )<br /> Increase work efficiency and convenience using VolP Phone, Laptop, PDA which works in a wireless network system in side data center<br />
Simple Solution<br />LS Wi-Fi AP has applied IEEE 802.11n draft 2.0, providing users with high bandwidth and wide coverage when using Volp Phone, laptop, and PDA. <br />Its application of IEEE 802.3af PoE also helps provide data and power by LAN cable, making it easier to install.<br /> 802.11b/g/n<br /> 1 port 10/100Base-Tx wth PoE PD<br /> 2x2 MIMO(Multi-Input, Multi-Output)<br /> WEP64/128bit, 802.1x, ESSID<br /> WMM(WiFi Multimedia), WPS(WiFi Protect Setup)<br /> NAT/Bridge mode<br /> DHCP Server, Client<br /> Web-based Management, SNMPv1/2<br />
Simple Solution<br />Wireless Acess Point ( Simple Fast-Point TM )<br /> Layer 2 swithch which IEEE802.3 Ethernet based data communication and IEEE802.3af standard based Power Source works simultaneously.<br />supports VLAN, RSTP, QoS which optimizes traffic flow and bandwidth usage<br />Reduce additional cost to provide power to the eqipment<br />24 port 10/100Base-Tx with PoE PSE for subscriber<br /> 2 port 10/100/1000Base-T or SFP for uplink<br /> Non-blocking switching, Store and forward structure<br />VLAN, Multicast, STP/RSTP, Packet Classification, QoS function<br />Web-based, SNMP control function.<br />19” Rack mountBoxtype<br />
Simple Solution<br />Why LS Simple?<br /><ul><li> Top Tier Technology </li></ul>- Cooperation with R&D Group, Technical Innovation, Production EfficiencyQuality guaranteed products<br /><ul><li> Diverse Product Range
Remarks :</li></ul> - Biggest hotel with 1200 rooms in UK<br /> - Schedule to supply cable and connectivity <br /> to New Park Plaza which is composed of 7 buildings<br /><ul><li>Name : Torino City Government