BAAF10-Building Web Applications Using the ArcGIS API for Flex_Win7

The Dell EMC S5048-ON switch is an innovative, future-ready T op-of-Rack (T oR) open networking switch providing excellent capabilities and cost-effectiveness for the enterprise, mid-market, Tier2 cloud and NFV service providers with demanding compute and storage traffic environments.The S5048F-ON 25GbE switch is Dell’s latest disaggregated hardware and software data center networking solution that provides backward compatible 25GbE server port connections, 100GbE uplinks, storage optimized architecture, and a broad range of functionality to meet the growing demands of today’s data center environment now and in the future.The compact S5048F-ON model design provides industry-leading density with up to 72 ports of 25GbE or up to 48 ports of 25GbE and 6 ports of 100GbE in a 1RU form factor.Using industry-leading hardware and a choice of Dell’s OS9 or select 3rd party network operating systems and tools, the S5048F-ON delivers non-blocking performance* for workloads sensitive to packet loss. The compact S5048F-ON model provides multi rate speed enabling denser footprints and simplifying migration to 25GbE server connections and 100GbE fabrics. Priority-based flow control (PFC), data center bridge exchange (DCBX) and enhanced transmission selection (ETS) make the S5048F-ON an excellent choice for DCB environments.Maximum performance and functionalityThe Dell EMC Networking S-Series S5048F-ON is a high-performance, multi-function, 10/25/40/50/100 GbE T oR switch purpose-built for applications in high-performance data center, cloud and computing environments.In addition, the S5048F-ON incorporates multiple architectural features that optimize data center network flexibility, efficiency, and availability, including IO panel to PSU airflow or PSU to IO panel airflow for hot/cold aisle environments, and redundant, hot-swappable power supplies and fans. Key applications• Organizations looking to enter the software-defined data center era with a choice of networking technologies designed to deliver theflexibility they need• Native high-density 25 GbE T oR server access in high-performance data center environments• 25 GbE backward compatible to 10G and 1G for future proofing and data center server migration to faster uplink speeds.• Capability to support mixed 25G and 10G servers on front panel ports • iSCSI storage deployment including DCB converged lossless transactions • Suitable as a T oR or Leaf switch in 100G Active Fabric implementations • As a high speed VXLAN L2 gateway that connects the hypervisor-based overlay networks with non-virtualized infrastructure• Emerging applications requiring hardware support for new protocols Key features• 1RU high-density 25/10/1 GbE T oR switch with up to forty eight ports of native 25 GbE (SFP28) ports supporting 25 GbE without breakout cables• Multi-rate 100GbE ports support 10/25/40/50/100 GbE• 3.6 Tbps (full-duplex) non-blocking, store and forward switching fabric delivers line-rate performance under full load*• Scalable L2 and L3 Ethernet switching with QoS and a full comple-ment of standards-based IPv4 and IPv6 features, including OSPF and BGP routing support• L2 multipath support via Virtual Link Trunking (VLT) and multiple VLT (mVLT) multi-chassis link aggregation technology• VRF-lite enables sharing of networking infrastructure and provides L3 traffic isolation across tenants• Open Automation Framework adding automated configuration and provisioning capabilities to simplify the management of networkenvironments• Jumbo frame support for large data transfers• 128 link aggregation groups with up to eight members per group, using enhanced hashing• Redundant, hot-swappable power supplies and fans• I/O panel to power supply airflow or power supply to I/O panel airflow • T ool-less enterprise ReadyRails™ mounting kits reducing time and resources for switch rack installation• Power-efficient operation up to 45°C helping reduce cooling costs in temperature-constrained deployments (Dell EMC Fresh Air 2.0compliant)• Converged network support for DCB and ECN capability• Supports the open source Open Network Install Environment (ONIE) for zero touch installation of alternate network operating systems• Fibre Channel, FCoE, FCoE transit (FIP Snooping) and NPIV ProxyDELL EMC NETWORKING S5048F-ONHigh-performance open networking top-of-rack switch with native 25G server ports and 100G network fabric connectivity**future deliverable48 line-rate 25 Gigabit Ethernet SFP28 ports6 line-rate 100 Gigabit Ethernet QSFP28 ports1 RJ45 console/management port with RS232signaling1 Micro-USB type B optional console port1 10/100/1000 Base-T Ethernet port used asmanagement port1 USB type A port for the external mass storage Size: 1 RU, 1.72 h x 17.1 w x 18” d(4.4 h x 43.4 w x 45.7 cm d)Weight: 22lbs (9.98kg)ISO 7779 A-weighted sound pressure level: 59.6 dBA at 73.4°F (23°C)Power supply: 100–240 VAC 50/60 HzMax. thermal output: 1956 BTU/hMax. current draw per system:5.73A/4.8A at 100/120V AC2.87A/2.4A at 200/240V ACMax. power consumption: 573 Watts (AC)T yp. power consumption: 288 Watts (AC) with all optics loadedMax. operating specifications:Operating temperature: 32° to 113°F (0° to 45°C) Operating humidity: 10 to 90% (RH), non-condensingFresh Air Compliant to 45°CMax. non-operating specifications:Storage temperature: –40° to 158°F (–40° to70°C)Storage humidity: 5 to 95% (RH), non-condensing RedundancyT wo hot swappable redundant power suppliesHot swappable redundant fansPerformanceSwitch fabric capacity: 3.6TbpsForwarding capacity: Up to 2,678 MppsPacket buffer memory: 22MB (16MB supported in initial release)CPU memory: 8GBMAC addresses: 132K (in scaled-l2-switch mode) ARP table: 82K (in scaled-l3-hosts mode)IPv4 routes: Up to 128KIPv6 routes: Up to 64K (20k currently supported) Multicast hosts: Up to 8KLink aggregation: 128 groups, 32 members per LAG groupLayer 2 VLANs: 4KMSTP: 64 instancesLAG Load Balancing: Based on layer 2, IPv4 or IPv6 header, or tunnel inner header contentsQoS data queues: 8QoS control queues: 12QoS: 1024 entries per TileIngress ACL: 1024 entries per TileEgress ACL: 1k entries per TilePre-Ingress ACL: 1k entries per TileIEEE Compliance802.1AB LLDP802.1D Bridging, STP802.1p L2 Prioritization802.1Q VLAN T agging, Double VLAN T agging,GVRP802.1Qbb PFC802.1Qaz ETS802.1s MSTP802.1w RSTP802.1X Network Access Control802.3ab Gigabit Ethernet (1000BASE-T) orbreakout802.3ac Frame Extensions for VLAN T agging 802.3ad Link Aggregation with LACP 802.3ba 40 Gigabit Ethernet (40GBase-SR4,40GBase-CR4, 40GBase-LR4, 100GBase-SR10, 100GBase-LR4, 100GBase-ER4) onoptical ports802.3bj 100 Gigabit Ethernet802.3u Fast Ethernet (100Base-TX) on mgmtports802.3x Flow Control802.3z Gigabit Ethernet (1000Base-X) with QSAANSI/TIA-1057 LLDP-MEDForce10 PVST+Jumbo MTU support 9,416 bytesLayer2 Protocols4301 Security Architecture for IPSec*4302 IPSec Authentication Header*4303 ESP Protocol*802.1D Compatible802.1p L2 Prioritization802.1Q VLAN T agging802.1s MSTP802.1w RSTP802.1t RPVST+802.3ad Link Aggregation with LACPVL T Virtual Link T runkingRFC Compliance768 UDP793 TCP854 T elnet959 FTP1321 MD51350 TFTP2474 Differentiated Services2698 T wo Rate Three Color Marker3164 Syslog4254 S SHv2General IPv4 Protocols791 I Pv4792 ICMP826 ARP1027 Proxy ARP1035 DNS (client)1042 Ethernet Transmission1191 Path MTU Discovery1305 NTPv41519 CIDR1542 BOOTP (relay)1858 IP Fragment Filtering2131 DHCP (server and relay)5798 V RRP3021 31-bit Prefixes3046 D HCP Option 82 (Relay)1812 Requirements for IPv4 Routers1918 Address Allocation for Private Internets2474 Diffserv Field in IPv4 and Ipv6 Headers2596 A ssured Forwarding PHB Group3195 Reliable Delivery for Syslog3246 E xpedited Assured Forwarding4364 V RF-lite (IPv4 VRF with OSPF and BGP)*General IPv6 Protocols1981 Path MTU Discovery*2460 I Pv62461 Neighbor Discovery*2462 S tateless Address AutoConfig2463 I CMPv62675 Jumbo grams3587 Global Unicast Address Format4291 IPv6 Addressing2464 T ransmission of IPv6 Packets over EthernetNetworks2711 IPv6 Router Alert Option4007 I Pv6 Scoped Address Architectureand Routers4291 IPv6 Addressing Architecture4861 Neighbor Discovery for IPv64862 I Pv6 Stateless Address Autoconfiguration5095 Deprecation of T ype 0 Routing Headers in IPv6IPv6 Management support (telnet, FTP, TACACS,RADI US, SSH, NTP)RIP1058 RIPv12453 R I Pv2OSPF (v2/v3)1587 NSSA (not supported in OSPFv3)1745 OSPF/BGP interaction1765 OSPF Database overflow2154 MD52328 OSPFv22370 Opaque LSA3101 OSPF NSSA3623 O SPF Graceful Restart (Helper mode)*BGP1997 Communities2385 M D52439 R oute Flap Damping2545 B GP-4 Multiprotocol Extensions for IPv6I nter-Domain Routing2796 Route Reflection2842 C apabilities2858 M ultiprotocol Extensions2918 Route Refresh3065 C onfederations4271 BGP-44360 E xtended Communities4893 4-byte ASN5396 4-byte ASN Representation5492 C apabilities AdvertisementMulticast1112 IGMPv12236 I GMPv23376 IGMPv3MSDPPIM-SMPIM-SSMNetwork Management1155 SMIv11157 SNMPv11212 Concise MIB Definitions1215 SNMP Traps1493 Bridges MIB1850 OSPFv2 MIB1901 Community-Based SNMPv22011 IP MIB2096 I P Forwarding T able MIB2578 SMI v22579 T extual Conventions for SMIv22580 C onformance Statements for SMIv22618 RADIUS Authentication MIB2665 E thernet-Like Interfaces MIB2674 Extended Bridge MIB2787 VRRP MIB2819 RMON MIB (groups 1, 2, 3, 9)2863 I nterfaces MIB3273 RMON High Capacity MIB3410 SNMPv33411 SNMPv3 Management Framework3412 Message Processing and Dispatching for theSimple Network Management Protocol (SNMP)3413 SNMP Applications3414 User-based Security Model (USM) forSNMPv33415 VACM for SNMP3416 SNMPv23417 Transport mappings for SNMP3418 SNMP MIB3434 R MON High Capacity Alarm MIB3584 C oexistance between SNMP v1, v2 and v3 4022 I P MIB4087 IP Tunnel MIB4113 UDP MIB4133 Entity MIB4292 M IB for IP4293 M IB for IPv6 T extual Conventions4502 R MONv2 (groups 1,2,3,9)5060 PIM MIBANSI/TIA-1057 LLDP-MED MIBDell_ITA.Rev_1_1 MIBdraft-ietf-idr-bgp4-mib-06 BGP MIBv1IEEE 802.1AB LLDP MIBIEEE 802.1AB LLDP DOT1 MIBIEEE 802.1AB LLDP DOT3 MIB sFlowv5 sFlowv5 MIB (version 1.3)DELL-NETWORKING-BGP4-V2-MIB(draft-ietf-idr-bgp4-mibv2-05)DELL-NETWORKING-IF-EXTENSION-MIBDELL-NETWORKING-LINK-AGGREGATION-MIB DELL-NETWORKING-COPY-CONFIG-MIBDELL-NETWORKING-PRODUCTS-MIBDELL-NETWORKING-CHASSIS-MIBDELL-NETWORKING-SMIDELL-NETWORKING-TCDELL-NETWORKING-TRAP-EVENT-MIBDELL-NETWORKING-SYSTEM-COMPONENT-MIB DELL-NETWORKING-FIB-MIBDELL-NETWORKING-FPSTATS-MIBDELL-NETWORKING-ISIS-MIBDELL-NETWORKING-FIPSNOOPING-MIBDELL-NETWORKING-VIRTUAL-LINK-TRUNK-MIB DELL-NETWORKING-DCB-MIBDELL-NETWORKING-OPENFLOW-MIBDELL-NETWORKING-BMP-MIBDELL-NETWORKING-BPSTATS-MIBSecuritydraft-grant-tacacs-02 TACACS+2404 The Use of HMACSHA-1-96 within ESP and AH 2865 R ADI US3162 Radius and IPv63579 RADIUS support for EAP3580 802.1X with RADIUS3768 EAP3826 A ES Cipher Algorithm in the SNMP User Base Security Model4250, 4251, 4252, 4253, 4254 SSHv24301 Security Architecture for IPSec4302 I PSec Authentication Header4807 IPsecv Security Policy DB MIBData center bridging802.1Qbb Priority-Based Flow Control802.1Qaz Enhanced Transmission Selection (ETS)* Data Center Bridging eXchange (DCBx)DCBx Application TLV (iSCSI, FCoE*) Regulatory complianceSafetyUL/CSA 60950-1, Second EditionEN 60950-1, Second EditionIEC 60950-1, Second Edition Including All National Deviations and Group DifferencesEN 60825-1 Safety of Laser Products Part 1: Equipment Classification Requirements and User’s GuideEN 60825-2 Safety of Laser Products Part 2: Safety of Optical Fibre Communication SystemsIEC 62368-1FDA Regulation 21 CFR 1040.10 and 1040.11 Emissions & ImmunityFCC Part 15 (CFR 47) (USA) Class AICES-003 (Canada) Class AEN55032: 2015 (Europe) Class ACISPR32 (International) Class AAS/NZS CISPR32 (Australia and New Zealand) Class AVCCI (Japan) Class AKN32 (Korea) Class ACNS13438 (T aiwan) Class ACISPR22EN55022EN61000-3-2EN61000-3-3EN61000-6-1EN300 386EN 61000-4-2 ESDEN 61000-4-3 Radiated ImmunityEN 61000-4-4 EFTEN 61000-4-5 SurgeEN 61000-4-6 Low Frequency Conducted Immunity NEBSGR-63-CoreGR-1089-CoreATT-TP-76200VZ.TPR.9305RoHSRoHS 6 and China RoHS compliantCertificationsJapan: VCCI V3/2009 Class AUSA: FCC CFR 47 Part 15, Subpart B:2009, Class A Warranty1 Year Return to DepotLearn more at /NetworkingIT Lifecycle Servicesfor NetworkingExperts, insights and easeOur highly trained experts, withinnovative tools and proven processes,help you transform your IT investments into strategic advantages.Plan & DesignLet us analyze yourmultivendor environmentand deliver a comprehensivereport and action plan to buildupon the existing network andimprove performance.Deploy & IntegrateGet new wired or wirelessnetwork technology installedand configured with ProDeploy.Reduce costs, save time, andget up and running fast.EducateEnsure your staff builds theright skills for long-termsuccess. Get certified on DellEMC Networking technologyand learn how to increaseperformance and optimizeinfrastructure.Manage & SupportGain access to technical expertsand quickly resolve multivendornetworking challenges withProSupport. Spend less timeresolving network issues andmore time innovating.OptimizeMaximize performance fordynamic IT environments withDell EMC Optimize. Benefitfrom in-depth predictiveanalysis, remote monitoringand a dedicated systemsanalyst for your network.RetireWe can help you resell or retireexcess hardware while meetinglocal regulatory guidelines andacting in an environmentallyresponsible way.Learn more at/lifecycleservices*Future release**Packet sizes over 147 Bytes。

Application Guide For BTech Programmes ApplicantsSCALE Online Application Portal AY2021/2022 January IntakeThings to note before applying:1.Read through the information on SCALE website at https:///37efSqp.2.Have the necessary supporting documents ready. It should be in PDF format, not exceeding1.5MB. You may reference the list of documents at https:///2KzPayL as a guide. It ispreferred that coloured copies are submitted. For supporting documents that are not in English, it must be accompanied by an official translation of the same in English.3.All information that are declared in your application must be supported with documents forverification.4.Application fee is payable only via online payment.5.Depending on the number of programmes selected, you will need to pay anon-refundable and non-transferable application fee before your application is considered submitted.6.Take note of the application deadline. It is advisable to submit your application as early as possiblewithin the application period to prevent any delay in the processing. Any request for late submission of application after the application period will not be entertain.Step 1: Begin your application1.Ensure you are using one of the compatible browsers as listed.2.Read through the instructions before you proceed.3.Check that you are applying to the correct intake, and take note of the application period stated.Any request for late submission of application after the application period will not be entertain.4.Click APPLY NOW to begin your application.Step 2: Create your login password1.Create a password that fulfill the rules as stated. This password will be used to access theapplication portal.Step 3: Select the programmes1.Select the BTech Programmes from the dropdown list.2.Rank your preference if you are applying more than one BTech Programme.3.You are allowed to select up to a maximum of 5 programmes, and the application fee will basedon the number of programmes that you have selected in your application.Step 4: Provide your personal particulars1.The “Official Name” must be as per NRIC/passport, i.e. if there is any special character in yourname (e.g. comma), it should be included. Hanyu pinyin is however not required.2.The “Last Name” refers to your Surname or Family Name.3.For SPRs, your “Citizenship” should follows the nationality at the back of your blue NRIC, andS’pore Blue should be selected under “Type of NRIC”.4.For International applicant, select No NRIC under “Type of NRIC”, and indicate the correct type ofpass you are holding under “Employment Pass Type/Valid Pass Type”.Example for SPRExample for InternationalStep 5: Provide your contact information1. A valid residential address of your current residing home is required. It should be as per indicatedat the back of your NRIC for Singapore Citizens and SPRs. Should you have moved house and have yet to update your NRIC, you are to submit a recent billing statement/letter that shows your full name and latest current address as supporting document.2.Provide a valid email address that is frequently used as we will be contacting you mainly via email.3. A valid contact number must be provided for urgent matters. The country and area codes are notrequired if you are providing a Singapore number.Step 6: Confirm on the number of programmes to apply1.Once you have completed Step 1 to 5, click Proceed to continue.2. A pop-up message will be prompted with the total application fee payable shown. If there are nochanges to be made, click Proceed. If you would like to make changes to the information that was declared earlier, click Cancel to go back to the application.Step 7: Complete the remaining details required for submission1.Your application is now created and a status notification will be send to your registered personalemail that you have provided.2.Take note of your application number which is required for the portal login and it must beprovided when you correspond with us via email or phone call.3.Click on each tab on the left panel to complete your application before submission. You will needto click Save after completing each section for the portal to capture your records.NOTE: Your application is not considered as submitted until you have completed the application and made payment for the application fee.Step 8: Provide National Service (NS) information1.Applicants who have completed the 2 years NS liability are to indicate the ORD date as stated onyour Certificate of Service (COS).2.For applicants who are still serving your NS, select Currently Serving from the dropdown list. Youare to ensure your ORD date is before the commencement date of the intake, and an official letter from MINDEF stating the enlistment date and expected ORD date is to be submitted.3.For applicants who are regular officers (i.e. you are on a contract with MINDEF), selectPensionable/Contract SAF/Civil Defence Officer from the dropdown list and indicate Yes under “Contract Service”. You must have serve passed the 2-years liability, and an official letter from MINDEF with the enlistment date and expected Service Completion Date is to be submitted. 4.Applicants who have indicated Exempted in the application will need to submit the exemptionletter.Example for applicants who are currently serving NSExample for applicants who are on a contract serviceStep 9: Provide education background(A)S ingapore-Cambridge GCE O Level/SPM or equivalent1.If you have taken the Singapore-Cambridge “O” Level Examination, select Singapore-CambridgeGCE O Level from the “Examination” dropdown list.2.You are only required to indicate your grade(s) for the Mathematics subjects. If you have takenthe subject more than once, provide the higher grade and all result slips must be submitted. 3.For SPM holders, you may refer to the table below to guide you on keying in your grades.(B)Polytechnic Diploma1.You may declare up to a maximum of two diploma qualifications, if any.2.The exact course name as stated on your Diploma Certificate should be selected from thedropdown list under “Diploma Course”. E.g. if your course is Diploma in Engineering (Mechanical), you should not be selecting Diploma in Mechanical Engineering.3.Holders of the local 2.5 years Part-time Diploma are to select 2.5 Part Time under “DiplomaTaken”.4.Only holders from the 5 local Polytechnics and BCA Academy are required to indicate your GPAin the application.5.Provide the grades of your best 3 Mathematics modules taken, if any.(C)Advanced Diploma and Specialist Diploma1.This section is required only if you have taken an Advanced Diploma and/or Specialist Diploma.2.If you are currently still in the course, an official letter from the school stating your studentstatus and expected completion date is required.(D)U niversity Education1.If you have withdrawn/dismissed from a University, you are to submit the officialwithdrawal/dismissal letter and the transcript/result slips for modules that were taken previously.Additionally, if you have withdrawn from one of the local universities, an official document from the University with the following information is required as well.a)Nameb)NRICc)Programme enrolledd)Date of admissione)Date of withdrawal / dismissalf)No. of modular units/credits required to graduate (inclusive of exemption upon admission)g)No. of modular units/credits granted as exemption upon admissionh)No. of modular units/credits eligible to enjoy TFS at start of programme (for programme &buffer for failed and repeat modules)i)No. of modular units/credits consumed so far (for programme & buffer for failed and repeatmodules)(E)Other Local Qualification1.Should you have obtained other local qualifications (e.g. ACCA, NUS SCALE Certificate Courses,CET500); you may declare under this section and upload the supporting documents.Step 10: Provide employment information1.ALL employment declared in the application must be supported with the relevant documentsfor verification. Employment that is declared without any supporting documents will not be taken into consideration.2.Polytechnic internship and the 2-years National Service (NS) liability are not considered as workexperience. These should not be declared under the employment section.3. A detailed job description of your current employment is to be provided as it is one of theconsiderations that will be reviewed.4.If you wish to declare more than one previous employment, click on the Add button.5.Previous employment letters/documents of various companies should be combine into one PDFfile if you have declared more than one previous employment.6.If your current employer is sponsoring you for your studies, i.e. financial (e.g. sponsoring of tuitionfee) or non-financial (e.g. providing exam leave), the official approved sponsorship letter with the specific details must be provided.Step 11: Provide Next-of-Kin information1.Provide a valid contact of your next-of-kin for emergency purposes. The country and area codesare not required if you are providing a Singapore number.Step 12: Declaration1.Should you have any health declaration to be made, please specify in details. Official medicalrecords are to be submitted for verification.Step 13: Check and submit your application1.Section marked with a cross implies the particular section in your application is incomplete. Youare to re-visit the section and complete it.2.If you have completed all required sections in the application (i.e. tick in all sections), you mayclick on the Submit button to proceed.Step 14: View, print and make payment for your application1.Check and ensure all details provided in the application are correct. You may make changes toyour application by clicking on the Edit button at the top right corner.2.To print a copy of your application for reference, click on the Print button.3.If there are no changes to be made, click the Payment button to proceed and complete yoursubmission.Step 15: Payment of Application Fee1. A summary of the programmes applied and the total application fee payable will be stated.2.Select your payment method and click Proceed to Payment.3.Follow the instruction on the screen to complete your application fee payment.4.Once payment has been made successfully, you will receive an email with the e-receipt attached. NOTE: Your application will only be processed after the application fee is received. The application fee is non-refundable and non-transferable.。

Building Network AdapterSUSI Server 5.0.1.BSoftware Release BulletinThis document contains proprietary information of Honeywell Intl. Information contained herein is to be used solely for the purpose submitted and no part of this document or its contents shall be reproduced published or disclosed to a third party without the express permission of Honeywell Intl.ContentsAbout this document (4)Contents of release (4)Who should install this software? (6)Software compatibility (6)Third party software and hardware compatibility (8)Problems resolved (PCR/RFC) (8)Special notes on the release (9)Installing the software (10)BNAII SUSI Server 3.0.0 and above versions are not compatible with BNAII Bootloader 1.0.0 (10)List of deliverables (11)Product deliverables (11)Documentation (11)Building Network AdapterVersion 5.0.1.BAbout this documentThis document contains important information about the General release of the SUSI Server for Building Network Adapters (BNA). It describes the main features of this release and its compatibility to connecting Building Management Systems, like EBI, XBS and XFI.Furthermore this document contains info about built-in features plus known and solved problems of the actual software release. This document is designed for TAC and Affiliate personnel.Contents of releaseWith the new BNA development, every BNA releases shall consist of two BNA firmware versions:- -One for BNA Legacy devices, herein after referred to as BNA-I-Other for new BNA devices, herein after referred to as BNA-IISee section on Special notes on the release for more detailsBNA SUSI Server 5.0.1.B is the control release of Honeywell's networking capable subsystem integration device named Building Network Adapter (BNA). This version of the software supports all the legacy subsystems. This firmware contains the diagnostic feature for collecting the SUSI/Trace logs automatically using the SUSI/Trace Logger tool which will come as a separate GUI installation and Bus Monitoring tool which raise the system events for the exceeding load in the BNA.This version of BNA SUSI Server software fully supports BNA 1C, BNA 2CS and BNA 2DN devices. Each of the different BNA device types support different set of subsystems. The following list documents which subsystems can be connected to each BNA device type using BNA SUSI Server software:BNA Type Supported Busses / SubsystemsBNA 1C C-Bus only!All kinds of XL500 family controllers and EXCEL IRCand EXCEL EMC connected to the C-Bus.BNA 2CS C-Bus:All kinds of XL500 family controllers, EXCEL IRC andEXCEL EMC connected to the C-Bus.S-Bus:Excel Classic and EMC(S-Bus) devices.F&S Bus:FS90+BNA 2DN L1 Bus: R7044A, B Excel PlusR7044D, E and G HPEP with optional connectedDeltaNet MicroCel™ and DeltaNet MacroCel™ (“M-Cel”) Controllers via CNI board.L2 Bus: DeltaNet Gateway, RICM, CSSNOTE:Depending on the current Honeywell Building Management System that has been purchased, a different set of subsystem integrations may be accessible. Refer to the corresponding documentation of your current Building Management System to find a list of subsystem integrations supported via BNA SUSI Server.Who should install this software?Installing this software on BNA devices is required whenever the Building Management System that is currently used requires subsystem connectivity via BNA SUSI Servers.Software compatibilityBNA SUSI Server software has been designed for maximum software compatibility. It also provides full backward compatibility to older systems connected to BNA SUSI Servers except new Bus Monitoring Tool Implementation. Therefore it is not necessary to provide a list of specific Building Management System releases documenting which SUSI Server release fits to which Building Management System release.The following list contains all the Building Management Systems that support full or partial integrations via BNA SUSI Server.♦Building Network Point Server (BNPS), 4.4♦Enterprise Building Integrator(EBI), R410.2 SP1The following table lists the compatible controller OS versions supported by the current BNA SUSI Server release:Software Part Number Version NumberR7510 S1014 or later †R7044A,B 14800170-001 9.6 or laterR7044D,E,G 14800189-005 or later 4.3 or later*FS90+ LJ Comm/Display OS 14800180-004, 104, 005,106, 1071.4 or laterFS90+ F&S OS 14800162-010, 011, 012,013, 014, 015, 116, 117, 1182.0 or laterS1064, Excel 20 Controller andEPROM Burn1.03.00 or laterExcel 50 Controllers 2.00.01, 2.00.03, 2.01.00 orlaterExcel 500 Controllers (1.1Hardware XC5010A)1.01.32Excel 80, 100, or 500 Controllers (1.2 Hardware) 1.02.85, 1.02.02, 1.02.04, 1.03.00, 1.03.01 , 1.03.02, 1.03.03, 1.04.00, 1.05.00 1.05.01 (See Note 2)Excel 500 Controllers (1.3 Hardware XC5010C) 2.00.02, 2.00.03 or later;2.01.00 or later; 2.03.00,2.04.04, Excel 500 OS 2.06.01Excel 600 Controller 1.02.02, 1.02.03, 1.02.04,1.03.00, 1.03.04 or later Excel IRC 8.0 or laterExcel EMC 3.03Excel EMC (on S-bus) 3.5S or laterXM100A Modem Device (OldHardware)1.01.16XM100A Modem Device (NewHardware)1.01.16 or laterXDM506 Modem Submodule(Daughterboard for Controllers)1.01.15 or laterExcel 10 Zone Manager 1.00.00 or laterExcel 10 VAV Controller 1.06.05, 1.06.06, or later Excel 10 VAV II Controller 1.02.05Excel 10 CVAHU Controller 2.01.05Excel 10 FCU II Controller 1.00.94Excel 10 CHC Controller 1.00.01Excel 10 HYD Controller 1.00.01DeltaNet Gateway 17.0RICM 2.01-2.03CSS 7.29* M-Cel Automatic Recovery requires R7044D, E, G Version 10.0 or later.† Excel DDC OS software versions are identified as Sxxxx with no 14-million number, except the following:S1014; 14815539-002, R7510A1005/B1003S4001; 14817510-001, R7510B1003-2/-4Note:See Quality Tip #525 dated March 19, 1987 for the Excel CPU Revision History.Note 2: Version 1.02.02 or later required for condition refresh and improved alarm handling.Version 1.05.00 required for variable thresholds.Third party software and hardware compatibilityBNA SUSI Server software can only be loaded and executed on Honeywell Building Network Adapter Devices.To download the BNA SUSI Server software a standard FTP server is required in the LAN to which the BNA device is connected to.Notes on Network configuration:∙BNA-I : The LAN speed of the BNA is 10 MBPS half duplex. So, BNA has to be connected to a HUB/Switch configured to a switch port for 10MB and not to Auto.∙BNA-II : BNA-II is 100 MBPS full duplex, auto configurable deviceProblems resolved (PCR/RFC)Special notes on the releaseThis release onwards, two versions of the BNA firmware will be released for the two BNA devices: BNA-I - BNA-I is the older version, which was sold up to 2005BNA-II - BNA-II is the successor of the BNA-I, which comes into market from 2005Make sure that correct firmware versions are loaded in the respective BNA devices.Below table summarizes a list of features that can be used to distinguish the two variants of the BNA devicesInstalling the softwareInstallation of application firmware for the BNA SUSI Server is described in detail in the BNA Installation Instruction & User Manual. The same procedure needs to be followed for both the variantsFurthermore there will be Building Management System (BMS) related installation instructions for the SUSI Server software in each BMS related documentation.Caution!BNAII SUSI Server 3.0.0 and above versions are not compatible with BNAII Bootloader 1.0.0 Installation of BNAII_SUSI_SERVER_V3.0.0.BIN and above versions will produce a “Checking CRC...Failed” error, if the device contains BNAII Bootloader version 1.0.0. To avoid this problem, update the Bootloader to version 1.0.2Honeywell Software Release Bulletin Honeywell Technology Solutions Lab - Bangalore Building Network Adapter - SUSI Server 5.0.1.BList of deliverablesProduct deliverablesThe following is a list of the physical product deliverables for BNA SUSI Server Software.DocumentationBNA SUSI Server Technical Literatures (Application manual, Installation Instructions, Checkout & Test) SRB, Compatibility matrix and the Binaries will be made available in HOTDOCS and in the EBI Intranet web siteHOTDOCS: Honeywell Online Technical DOCumentation SystemENSB-1019IE10 R0604 (BNA Ver 5.0.1.B) Page 11 of 12Honeywell Software Release Bulletin Honeywell Technology Solutions Lab-Bangalore Building Network Adapter - SUSI Server 5.0.1.BHoneywell Honeywell Technology Solutions Lab - Bangalore151/1, Doraisanipalya,Bannerghatta Road,Bangalore 560 076.Telephone +91-80-26588360Subject to change without notice. Printed in Bangalore. ENSB-1019IE10 R0604 (BNA Ver 5.0.1.B)DINEN ISO 9001 Manufacturing location is certified according to。

Data SheetCisco UCS B200 M4 Blade ServerProduct OverviewThe Cisco Unified Computing System ™ (Cisco UCS ®) combines Cisco UCS B-Series Blade Servers and C-SeriesRack Servers with networking and storage access into a single converged system with simplified managemen t,greater cost efficiency and agility, and increased visibility and control. One of the newest servers in the Cisco UCSportfolio is the Cisco UCS B200 M4 Blade Server.The UCS B200 M4 Blade Server (Figure 1) delivers performance, flexibility and optimiza tion for data centers andremote sites. This enterprise-class server offers market-leading performance, versatility, and density withoutcompromise for workloads ranging from web infrastructure to distributed databases. The Cisco UCS B200 M4server can quickly deploy stateless physical and virtual workloads, with the programmable ease of use of theCisco UCS Manager software and simplified server access with Cisco ®SingleConnect technology. Based on theIntel ® Xeon ® processor E5-2600 v4 and v3 product family, it offers up to 1.5 TB of total memory when using 64 GBDIMMs, up to two drives, and up to 80 Gbps I/O throughput. The Cisco UCS B200 M4 offers exceptional levels ofperformance, flexibility, and I/O throughput to run your most demanding applications.In addition, Cisco UCS has the architectural advantage of not having to power and cool excess switches, NICs andHBAs in each blade server chassis. Having a larger power budget per blade server provides uncompromisedexpandability and capabilities, as in the new Cisco UCS B200 M4 server with its leading memory-slot and drivecapacity.Figure 1.Cisco UCS B200 M4 Blade ServerCisco UCS B200 M4 OverviewThe Cisco UCS B200 M4 provides:●Up to two multicore Intel Xeon processor E5-2600 v4 and v3 series CPUs for up to 44 processing cores. ● 24 DIMM slots for industry-standard DDR4 memory at speeds up to 2400 MHz and it offers up to 1.5 TB oftotal memory when using 64 GB DIMMs.● Two optional, hot-plug, SAS and SATA hard disk drives (HDDs) or solid-state drives (SSDs).●Cisco UCS Virtual Interface Card (VIC) 1340: a 2-port, 40 Gigabit Ethernet, Fibre Channel over Ethernet(FCoE)-capable modular LAN on motherboard (mLOM) mezzanine adapter. ◦ 2x ports - 40 Gbps Unified I/O portsor2 sets of 4 x 10-Gbps unified I/O ports◦ Delivers 80 Gbps to the server◦ Adapts to either 10 Gbps or 40 Gbps fabric connections●Cisco FlexStorage local drive storage subsystem provides flexible boot and local storage capabilities. Itallows you to:◦Support for optional NVIDIA M6 GPU◦Configure the Cisco UCS B200 M4 to meet your local storage requirements without having to buy,power and cool components that you do not need.◦Choose an enterprise-class RAID controller, or go without any controller or drive bays if not utilizing local drives◦Easily add, change, or remove Cisco FlexStorage modules●The Cisco UCS B200 M4 server is a half-width blade. Up to eight can reside in the 6-rack-unit (6RU) CiscoUCS 5108 Blade Server Chassis, offering one of the highest densities of servers per rack unit of bladechassis in the industry.OverviewThe Cisco UCS B200 M4 server is suited for a broad spectrum of IT workloads, including:●IT and web infrastructure●Virtualized workloads●Consolidating applications●Virtual desktops●Middleware●ERP and CRM applications●Single-instance and distributed databasesThe Cisco UCS B200 M4 Blade Server is one member of the Cisco UCS B-Series Blade Servers platform.As part of Cisco UCS, Cisco UCS B-Series servers incorporate many innovative Cisco technologies to help customers handle their most challenging workloads. Cisco UCS B-Series servers within a Cisco UCSmanagement framework incorporate a standards-based unified network fabric, Cisco Data Center VM-FEX virtualization support, Cisco UCS Manager, Cisco UCS Central, Cisco UCS Director software, and Cisco fabric extender architecture (Figure 2)Figure 2. Cisco UCS Server Innovations Change the E conomics of the Data Center by E nabling Customer Workloads to Benefit from Cisco UCS Simplification and Operational E fficienciesFeatures and Benefits of the Cisco UCS B200 M4 ServerTable 1 lists the main features and benefits of the Cisco UCS B200 M4.Table 1. Main Features and BenefitsSpecificationsTable 2 provides specifications for the Cisco UCS B200 M4. Table 2. P roduct SpecificationsTable 3. Regulatory Standards ComplianceWarranty InformationFind warranty information at on the Product Warranties page.Cisco Unified Computing ServicesUsing a unified view of data center res ources, Cisco and our industry-leading partners deliver services that accelerate your transition to a unified computing environment. Cisco Unified Computing Services can help you create an agile infrastructure that accelerates time to value, reduces costs and risks, and maintains availability during deployment and migration. After deployment, our services can help you improve performance, availability, and resiliency as your business needs evolve, and mitigate risk further. Quickly deploy your data center r esources and optimize ongoing operations to better meet your business needs. For more information about these and other Cisco Data Center Services offerings, visit /go/unifiedcomputingservices or/go/dcservices.Cisco CapitalFinancing to Help You Achieve Your ObjectivesCisco Capital can help you acquire the technology you need to achieve your objective s and stay competitive. We can help you reduce CapEx. Accelerate your growth. Optimize your investment dollars and ROI. Cisco Capital financing gives you flexibility in acquiring hardware, software, services, and complementary third-party equipment. And th ere’s just one predictable payment. Cisco Capital is available in more than 100 countries. Learn more.For More InformationFor more information about Cisco UCS B-Series Blade Servers, visit/en/US/products/ps10280/index.html or contact your local Cisco representative.Printed in USA C78-732434-04 11/16。

DATA SHEETFortiADC ™FortiADC 60F , 100F , 200F , 300F , 400F , 1000F , 2000F , 4000F , 5000F and VMHighlights§Comprehensive server load balancing for 99.999% application uptime §Server offloading for improved application acceleration, scale and TCO§Intelligent traffic management for optimized application delivery and availability§Web Application Firewall with Integrated vulnerability scanner §Hardware-based SSL Offloading, Forward Proxy, and Visibility §Advanced User Authentication §Included Global Server Load Balancing§Included Link Load Balancing and WAN Optimization §Scripting for Custom Load Balancing, Health Check and Content RewritingApplication Delivery without any limits.The FortiADC Application Delivery Controllers (ADC) optimize the availability, user experience, performance and application security. The FortiADC family of physical and virtual appliances delivers fast, secure and intelligent acceleration and distribution of demanding applications in the enterprise.Acceleration and PerformanceMulti-core processor technology, combined with hardware-based SSL offloading to accelerate application performance.Application Availability24x7 application availability through automatic failover, global server load balancing, and link load balancing to optimize WAN connectivity.Application ProtectionAdvanced Web Application Firewall protection from the OWASP top 10 and threat detection with Fortinet Security Fabric.DATA SHEET | FortiADC ™2HighlightsHardware-Based SSL Offloading, SSL Inspection, and VisibilityFortiADC offloads server-intensive SSL processing with support for 4096-bit keys, TCP connection management, data compression and HTTP request processing from servers. This speeds up response times, reduces load on the backend servers, allowing them to serve more users.SSL Forward Proxy utilizes FortiADC’s high-capacity decryption and encryption to allow other devices, such as a FortiGate firewall, to easily inspect traffic for threats. An inline pair of FortiADCs at the front end and back end of a firewall remove all encryption so that the firewall isn’t taxed with the additional load of SSL processing. FortiADC ensures seamless re-encryption with certificates intact with no user disruptions.FortiADC’s Transparent HTTP/S and TCP/S Mirroring Capabilities decrypt secure traffic for inspection and reporting. Copies of clear traffic can be sent for analysis by FortiGate or other third-party solutions for an indepth view of threats that may be hidden in encrypted traffic while FortiADC continues to perform its application delivery functions.FortiADC integrates with Gemalto’s SafeNet Enterprise Hardware Security Modules (HSMs) to use the advanced security certificates managed by the HSM for the encryption and decryption of secure application traffic. This lets organizations that use Gemalto’s SafeNet HSMs deploy a high-performance ADC solution using a strong, centrally-managed set of certificates and encryption keys.Disaster Recovery with Global Server Load BalancingFortiADC’s included Global Server Load Balancing (GSLB) makes your network reliable and available by scaling applications across multiple data centers for disaster recovery or to improve application response times. Administrators can set up rules that direct traffic based on site availability, data center performance and network latency.Web Application FirewallFortiADC offers multiple levels of protection to defend against attacks that target your web applications. FortiADC Web Application Firewall can detect a zero day attack and protect from OWASP top-10 and many other threats with multi-vector protection such as SQLi and XSS Protection, Web Scraping, Brute Force, Web Defacement, Protocol Validation (HTTP RFC) and Web Attack Signature using FortiGuard WAF Security Services for layer 7 attacks (subscription required). Also, FortiADC WAF provides full Web Vulnerability Scanning for your website to detect and alert against known attacks.Optimize Performance with PageSpeed, Caching, and CompressionFortiADC provides multiple services that speed the delivery of applications to users. The PageSpeed suite of website performance enhancement tools can automatically optimize HTTP , CSS, Javascript and image delivery to application users. Caching on FortiADC dynamically stores popular application content such as images, videos, HTML files and other file types to alleviate server resources and accelerate overall application performance. HTTP Compression employs GZIP and DEFLATE to intelligently compress many content types used by today’s latest web-based applications to reduce bandwidth needs and improve the user application experience.Deep Integration into the Fortinet Security FabricAs the threat landscape evolves, many new threats require a multi-pronged approach for protecting applications. Advanced Persistent Threats that target users can take many different forms than traditional single-vector attack types and can evadeprotections offered only by a single device. FortiADC’s antivirus and integration with FortiSandbox extend basic security protections toscan file attachments for known and unknown threats.DDoS Application, Web Filtering, IPS, Geo-IP and IP Reputation for Enhanced SecurityFortiGuard Web Filtering works with FortiADC’s SSL Forward Proxy feature to simplify the process of managing exceptions for secure traffic inspection. Instead of manually configuring single URLs, Web Filtering gives administrators the ability to choose websitesDATA SHEET | FortiADC™HighlightsAdvanced Layer 7 Load Balancing Intuitive L7 policy-based routing to dynamically rewrite content to support complex applications andserver configurations.Web Application Firewall Advanced Web Application Firewall that protects applications with Web Application Attack Signatures,Protocol Validation, Web Vulnerability Scanner, Bot Detection, DLP and File Restriction.SSL Offloading, Forward Proxy,and VisiblityHardware and software-based SSL offloading reduces the performance impact on your server infrastructure.Also provides SSL visibility, decryption and re-encryption for FortiGate to easily inspect traffic for threats.Application Optimization Speed up web application delivery with Compression, Caching, HTTP 2.0, and HTTP Page Speed-UP forimproved network and web server utilization.Global Server Load Balancing Included Global Server Load Balancing distributes traffic across multiple geographical locations for disaster Key Features and Benefitsby category type to enable or disable SSL traffic inspection as agroup instead of on a site by site basis. FortiADC also supports ourFortiGuard which provides multi services such as: IPS, Antivirusand IP Reputation service (subscription required) that protectsyou from sources associated with DoS/DDoS attacks, phishingschemes, spammers, malicious software and botnets.Scripting to Extend Built-in FeaturesFortiADC’s Lua-based scripting language gives you the flexibilityto create custom, event-driven rules using predefined commands,variables and operators. Using easy-to-create scripts, you get theflexibility you need to extend your FortiADC with specializedbusiness rules that give you almost unlimited possibilities for serverload balancing, health checks, application validation, content routing,and content rewriting to meet the needs of your organization.Link Load BalancingBuilt-in Link Load Balancing (LLB) gives you the option to connectyour FortiADC to two or more WAN links to reduce the risk ofoutages or to add additional bandwidth to relieve traffic congestion.FortiADC supports inbound and outbound Link Load Balancing tomanage traffic leaving or entering the device. Using policy routing,FortiADC can support complex NAT and routing requirements toaddress almost any network LLB architecture. With Tunnel Routingyou get high-speed, reliable site-to-site connectivity without theneed to lease expensive WAN links. It aggregates multiple linksto create a virtual tunnel to a remote data center that ensuresavailability especially for applications that are time sensitive andrequire large single-session bandwidth such as video conferencing.Analytics and VisibilityFortiADC offers real-time and historical information about yourappliance, which includes the logical topology of real-server pools,user/application data-analytics, security threats, attack maps andsome other system events and alerts.FortiADC DashboardVM and Public Cloud OptionsFortiADC provides maximum flexibility in supporting your virtual andhybrid environments. The virtual versions of FortiADC support all thesame features as our hardware-based devices and can be deployedin VMware, Microsoft Hyper-V, Citrix XenServer, Open Source Xen,and KVM platforms. FortiADC is also available for Amazon WebServices, Microsoft Azure, Google Cloud and Oracle Cloud.DATA SHEET | FortiADC™4Global Server Load Balancing (GSLB)§Global data center DNS-based failover of web applications§Delivers local and global load balancing between multi-site SSL VPN deployments§DNSSEC§DNS Access Control Lists§GSLB setup wizardDeployment Modes§One arm-mode (Proxy with X-forwarded for support)§Router mode§Transparent mode (switch)§High Availability (AA/AP Failover)Web Application FirewallApplication Protection§OWASP Top 10§Web Attack Signature§Bot Detection§Web Vulnerability Scanner§HTTP RFC complianceSecurity Services§SQLi/XSS Injection Detection§Web Scraping§CSRF Protection§Brute Force Protection§Web Defacement Protection§Data Leak Prevention§File Restriction§Cookie Security§XML/JSON/SOAP Validation§HTTP Header SecurityApplication AvailabilityEasy to use and configure Layer 4/7 policy andgroup management§Virtual service definition with inherited persistence, load balancing method and pool members§Static, default and backup policies and groups§Layer 4/7 application routing policy§Layer 4/7 server persistence§Application load balancing based on round robin, weighted round robin, least connections, shortest response§Granular real server control including warm up rate limiting and maintenance mode with session ramp down§Custom Scripting for SLB and Content Rewriting§Application Templates for Microsoft Applications including SharePoint, Exchange and Windows Remote Desktop§Application and script health checks§Clone Traffic PoolsLayer 4 Application Load Balancing§TCP, UDP stateless protocols supported§Round robin, weighted round robin, least connections, shortest response§L4 dynamic load balancing based on server parameters (CPU, Memory and disk)§Persistent IP, has IP/port, hash header, persistent cookie, hash cookie, destination IP hash, URI hash, full URI hash, host hash, host domain hashLayer 7 Application Load Balancing§DNS, HTTP, HTTPS, HTTP 2.0 GW, FTP, SIP, RDP, RADIUS, MySQL, RTMP, RTSP supported§L7 content switching– HTTP Host, HTTP Request URL, HTTP Referrer– Source IP Address§URL Redirect, HTTP request/response rewrite (includes HTTP body)§Layer 7 DNS load balancing, security, and caching§403 Forbidden Rewrite§Content rewritingLink Load Balancing§Inbound and outbound LLB§Support for Policy Route and SNAT§Multiple health check target support§Configurable intervals, retries and timeouts§Tunnel RoutingFeaturesDATA SHEET | FortiADC ™5FeaturesApplication AccelerationSSL Offloading and Acceleration§Offloads HTTPS and TCPS processing while securing sensitive data§Full certificate management features§SSL Forward Proxy for secure traffic inspection §HTTP/S Mirroring for traffic analysis and reporting §Support TLS 1.3HTTP and TCP Optimization§100x acceleration by off-loading TCP processing§Connection pooling and multiplexing for HTTP and HTTPS §HTTP Page Speed-UP for Web Server Optimization and Acceleration §TCP buffering§HTTP Compression and Decompression §HTTP Caching (static and dynamic objects) §Bandwidth allocation with Quality of Service (QoS) §HTTP and Layer 4 Rate Limiting Authentication Offloading §Local §LDAP §RADIUS §Kerberos§SAML 2.0 (SP & Idp)§Two-Factor Authentication — FortiToken and Google AuthenticationNetworking§NAT for maximum flexibility and scalability §VLAN and port trunking support§Cisco ACI, Nutanix, OpenStack and Ansible §NVGRE and VXLAN Support§BGP and OSPF with Route Health Inspection (RHI) §IPv6 Support §IPv6 routing §IPv6 firewall rulesApplication Security§FortiGuard Antivirus and FortiSandbox integration §GEO IP security and logs (subscription required) §Stateful firewall§Web Filtering (subscription required) §IP Reputation (subscription required) §IPv4 and 6 firewall rules§Granular policy-based connection limiting §Syn Cookie Protection §Connection Limits§Intrusion Prevention System (subscription required) §Application DDoS Protection §DNS SecurityManagement§Single point of cluster management§CLI Interface for configuration and monitoring §Secure SSH remote network management §Secure Web UI access§Central management for multiple FortiADC devices §RESTful API§SNMP with private MIBs with threshold-based traps §Real-time Data Analytics §Syslog support§Role-based administration §In-build diagnostic utilities §Real-time monitoring graphs §Built-in reporting§FortiView Integration §Data Analytics§Getting Started wizard for first-time login §Virtual Domains (VDOMs)DATA SHEET | FortiADC ™6SpecificationsHeight x Width x Length (mm)38 x 216 x 16044 x 440 x 26844 x 432 x 301.4Weight2.2 lbs (1 kg)9.9 lbs (4.5 kg)10.98 lbs (4.98 kg)All performance values are “up to” and vary depending on the system configuration.* Layer 7 CPS — measures number of new HTTP connections (1 HTTP request per TCP connection)** Tested with 1 HTTP request per SSL connection; SSL Ciphers=AES256-SHA; 2K KeysFortiADC 100FFortiADC 200FFortiADC 60FDATA SHEET | FortiADC ™7SpecificationsHeight x Width x Length (mm)44 x 438 x 41644 x 438 x 41644 x 438 x 530 Weight20 lbs (9.07 kg)20 lbs (9.07 kg)22.6 lbs (10.3 kg)All performance values are “up to” and vary depending on the system configuration.* Layer 7 CPS — measures number of new HTTP connections (1 HTTP request per TCP connection) ** Tested with 1 HTTP request per SSL connection; SSL Ciphers=AES256-SHA; 2K KeysFortiADC 1000FFortiADC 400FFortiADC 300FDATA SHEET | FortiADC ™8Height x Width x Length (mm)44 x 438 x 530 88 x 438 x 53080.6 x 436.9 x 777.2Weight22.6 lbs (10.3 kg)27 lbs (12.25 kg)68.3 lbs (31 kg)All performance values are “up to” and vary depending on the system configuration.* Layer 7 CPS — measures number of new HTTP connections (1 HTTP request per TCP connection) ** Tested with 1 HTTP request per SSL connection; SSL Ciphers=AES256-SHA; 2K Keys *** Subject to availabilitySpecificationsFortiADC 2000FFortiADC 4000FFortiADC 5000FDATA SHEET | FortiADC™SpecificationsHardware SpecificationsHypervisor Support VMware ESX/ESXi, Citrix XenServer, Open Source Xen, Microsoft Hyper-V, KVM, AWS, Azure, Google Cloud, Oracle Cloud. Please see the FortiADC-VM Install Guide for thelatest hypervisor versions supported.L4 Throughput* 1 Gbps 2 Gbps 4 Gbps10 Gbps16 Gbps24 GbpsVirtual Domains005101520vCPU Support (Maximum)12481632Memory Support (Maximum) 4 GB 4 GB8 GB16 GB32 GB64 GBNetwork Interface Support (Maximum)101010101010Storage Support (Minimum / Maximum)50 MB / 1 TB50 MB / 1 TB50 MB / 1 TB50 MB / 1 TB50 MB / 1 TB50 MB / 1 TB Throughput Hardware Dependent Hardware Dependent Hardware Dependent Hardware Dependent Hardware Dependent Hardware Dependent Management HTTPS, SSH CLI, Direct Console DB9 CLI, SNMP*********************************************************************************************************************************************************************************.5.Order Information Copyright © 2019 Fortinet, Inc. All rights reserved. Fortinet®, FortiGate®, FortiCare® and FortiGuard®, and certain other marks are registered trademarks of Fortinet, Inc., and other Fortinet names herein may also be registered and/or common law trademarks of Fortinet. All other product or company names may be trademarks of their respective owners. Performance and other metrics contained herein were attained in internal lab tests under ideal conditions, and actual performance and other results may vary. Network variables, different network environments and other conditions may affect performance results. Nothing herein represents any binding commitment by Fortinet, and Fortinet disclaims all warranties, whether express or implied, except to the extent Fortinet enters a binding written contract, signed by Fortinet’s General Counsel, with a purchaser that expressly warrants that the identified product will perform according to certain expressly-identified performance metrics and, in such event, only the specific performance metrics expressly identified in such binding written contract shall be binding on Fortinet. For absolute clarity, any such warranty will be limited to performance in the same ideal conditions as in Fortinet’s internal lab tests. Fortinet disclaims in full any covenants, representations, and guarantees pursuant hereto, whether express or implied. Fortinet reserves the right to change, modify, transfer, or otherwise revise this publication without notice, and the most current version of the publication shall be applicable. Fortinet disclaims in full any covenants, representations, and guarantees pursuant hereto, whether express or implied. Fortinet reserves the right to change, modify, transfer, or otherwise revise this publication without notice, and the most current version of the publication shall be applicable.FST-PROD-DS-ADC3FAD-DAT-R36-201908。

ForewordNational Building Information Modeling Standard™©2007 National Institute of Building Sciences. All rights reserved .ForewordThe construction industry is in the middle of a growing crisis worldwide. With 40% of the world’s raw materials being consumed by buildings, the industry is a key player in global economics and politics. And, since facilities consume 40% of the world’s energy and 65.2% of total U.S.electrical consumption, the construction industry is a key player in energy conservation, too! With facilities contributing 40% of the carbon emissions to the atmosphere and 20% of material waste to landfills, the industry is a key player in the environmental equation. Clearly, the construction industry has a responsibility to use the earth’s resources as efficiently as possible.Construction spending in the United States is estimated to be $1.288 trillion for 2008. The Construction Industry Institute estimates there is up to 57% non-value added effort or waste in our current business models. This means the industry may waste over $600 billion each year.There is an urgent need for construction industry stakeholders to maximize the portion of services that add value in end-products and to reduce waste.Another looming national crisis is the inability to provide enough qualified engineers. Someestimate the United States will be short a million engineers by the year 2020. In 2007, the United States was no longer the world’s largest consumer, a condition that will force United States industry to be more competitive in attracting talented professionals. The United States construction industry must take immediate action to become more competitive.The current approach to industry transformation is largely focused in efforts to optimize design and construction phase activities. While there is much to do in those phases, a lifecycle view is required. When sustainability is not adequately incorporated, the waste associated with current design, engineering, and construction practices grows throughout the rest of the facility’s lifecycle. Products with a short life add to performance failures, waste, recycling costs, energyconsumption, and environmental damage. Through cascading effects, these problems negatively affect the economy and national security due to dependence on foreign petroleum, a negative balance of trade, and environmental degradation. To halt current decline and reverse existing effects, the industry has a responsibility to take immediate action.While only a very small portion of facility lifecycle costs occur during design and construction, those are the phases where our decisions have the greatest impact. Most of the costs associated with a facility throughout its lifecycle accrue during a facility’s operations and sustainment. Carnegie-Mellon University research has indicated that an improvement of just 3.8% in productivity in the functions that occur in a building would totally pay for the facility’s design, construction, operations and sustainment, through increased efficiency. Therefore, as industry focuses on creating, maintaining, and operating facilities more efficiently, simultaneous action is required to ensure that people and processes supported by facilities are optimized.BIM stands for new concepts and practices that are so greatly improved by innovative information technologies and business structures that they will dramatically reduce the multiple forms of waste and inefficiency in the building industry. Whether used to refer to a product – Building Information Model (a structured dataset describing a building), an activity – Building Information Modeling (the act of creating a Building Information Model), or a system – Building Information Management (business structures of work and communication that increase quality andefficiency), BIM is a critical element in reducing industry waste, adding value to industry products, decreasing environmental damage, and increasing the functional performance of occupants.ForewordNational Building Information Modeling Standard™©2007 National Institute of Building Sciences. All rights reserved .The National Building Information Model Standard™ (NBIMS) is a key element to building industry transformation. NBIMS establishes standard definitions for building information exchanges to support critical business contexts using standard semantics and ontologies. Implemented in software, the Standard will form the basis for the accurate and efficientcommunication and commerce that are needed by the building industry and essential to industry transformations. Among other benefits, the Standard will help all participants in facilities-related processes achieve more reliable outcomes from commercial agreements.Thus, there is a critical need to increase the efficiency of the construction process. Today’s inefficiency is a primary cause of non-value added effort, such as re-typing (often with a new set of errors) information at each phase or among participants during the lifecycle of a facility or failing to provide full and accurate information from designer to constructor. With the implementation of this Standard, information interoperability and reliability will improve significantly. Standard development has already begun and implementable results will beavailable soon. BIM development, education, implementation, adoption, and understanding are intended to form a continuous process ingrained evermore into the industry. Success, in the form of a new paradigm for the building construction industry, will require that individuals andorganizations step up to contribute to and participate in creating and implementing a commonBIM standard. Each of us has a responsibility to take action now.David A. Harris, FAIAPresidentNational Institute of Building SciencesTable of ContentsNational Building Information Modeling Standard™©2007 National Institute of Building Sciences. All rights reserved .ForewordTable of ContentsSection 1 – Introduction to the National Building InformationModeling Standard™ Version 1 - Part 1: Overview,Principles, and MethodologiesChapter 1.1 Executive SummaryChapter 1.2 How to Read Version 1 -Part 1 of the NBIMStandard Navigation guide for readers with varied interests, responsibilities, and experience with BIM.Section 2 – Prologue to the National BIM StandardChapter 2.1 BIM Overall Scope An expansive vision for building informationmodeling and related concepts.Chapter 2.2 Introduction to the National BIM Standard Committee The Committee’s vision and mission,organization model, relationships to otherstandards development organizations,philosophical position, and the Standardproduct.Chapter 2.3 Future Versions Identifies developments for upcoming versionsof the Standard including sequence ofdevelopments, priorities, and planned releasedates.Section 3 – Information Exchange ConceptsChapter 3.1 Introduction to ExchangeConcepts What is an information exchange? Theory and examples from familiar processes.Chapter 3.2 Data Models and the Role of Interoperability.High level description of how BIM informationwill be stored in operational and projectsettings. Compares and contrasts integrationand interoperability and the NBIM Standardrequirement for interoperability.Chapter 3.3 Storing and SharingInformation Description of conceptual need for a shared, coordinated repository for lifecycle information.Presents an approach to providing the sharedinformation for a BIM which can be used byinformation exchangesTable of ContentsNational Building Information Modeling Standard™©2007 National Institute of Building Sciences. All rights reserved .Chapter 3.4 Information Assurance Discusses means to control information inputand withdrawal from a shared BIM repository.Section 4 – Information Exchange ContentChapter 4.1 BIM MinimumDefines quantity and quality of information required for a defined BIM. Chapter 4.2 Capability Maturity Model Building on the BIM Minimum chapter, furtherdefines a BIM and informs planning to improvethe capability to produce a mature BIM.Section 5 – NBIM Standard Development ProcessChapter 5.1 Overview of ExchangeStandard Developmentand Use ProcessDiagrams and describes major components in NBIM Standard development process. Chapter 5.2 Workgroup Formationand RequirementsDefinition Introduces the concept of forums and domain interest groups forming around needed exchange definitions. Discusses theInformation Delivery Manual (IDM) process andtools for requirements definition activities.Chapter 5.3 User-Facing Exchange Models Covers the IDM requirements for IFC-independent data model views.Chapter 5.4 Vendor-Facing Model View Definition, Implementation and Certification Testing Explains Model View Definition (MVD)requirements for schema-specific modeldefinition and the NBIMS Committee’s role infacilitating implementation and certificationtesting.Chapter 5.5 Deployment Discusses Project Agreements and use ofGeneric BIM Guides associated with BIMauthoring (creating a BIM) using certifiedapplications, validating the BIM construction,validating data in the BIM model, and using theBIM model in certified products to accomplishproject tasks through interoperable exchanges.Chapter 5.6 Consensus-Based Approval MethodsDescribes various methods of creating,reviewing, and approving the NBIM StandardExchange Requirements, Model ViewDefinitions, Standard Methods, Tools, andReferences used by and produced by theNBIMS Committee.Table of ContentsNational Building Information Modeling Standard™©2007 National Institute of Building Sciences. All rights reserved .AcknowledgementsReferencesGlossaryAppendicesIntroduction to AppendicesAppendix A Industry Foundation Classes(IFC or ifc) IFC define the virtual representations of objects used in the capital facilitiesindustry, their attributes, and theirrelationships and inheritances.Appendix B CSI OmniClass ™OmniClass is a multi-table facetedclassification system designed for useby the capital facilities industry to aidsorting and retrieval of informationand establishing classifications forand relationships between objects ina building information model.Appendix C International Framework for Dictionaries (IFDLibrary ™)A schema requires a consistent set ofnames of things to be able to work.Each of these names must have acontrolled definition that describeswhat it means and the units in which itmay be expressed.Section 1 – Introduction to the National BIM Standard V 1 - Part 1Chapter 1.1National Building Information Modeling Standard™©2007 National Institute of Building Sciences. All rights reserved .Chapter 1.1 Executive SummaryNational Building Information Modeling Standard™ Version 1 - Part 1:Overview, Principles, and MethodologiesIntroductionThe National Building Information Modeling Standard (NBIMS) Committee is a committee of the National Institute of Building Sciences (NIBS) Facility Information Council (FIC). The vision for NBIMS is “an improved planning, design, construction, operation, and maintenance process using a standardized machine-readable information model for each facility, new or old, which contains all appropriate information created or gathered about that facility in a format useable by all throughout its lifecycle.”1 The organization, philosophies, policies, plans, and working methods that comprise the NBIMS Initiative and the products of the Committee will be the National BIM Standard (NBIM Standard), which includes classifications, guides, recommended practices, and specifications.This publication is the first in a series intended to communicate all aspects of the NBIMS Committee and planned Standard, which will include principles, scope of investigation,organization, operations, development methodologies, and planned products. NBIMS V1-P1 is a guidance document that will be followed by publications containing standard specifications adopted through a consensus process .Wherever possible, international standards development processes and products, especially the NIBS consensus process, American Society for Testing and Materials (ASTM), AmericanNational Standards Institute (ANSI), and International Standards Organization (ISO) efforts will be recognized and incorporated so that NBIMS processes and products can be recognized as part of a unified international solution. Industry organizations working on open standards, such as the International Alliance for Interoperability (IAI), the Open Geospatial Consortium (OGC), and the Open Standards Consortium for Real Estate (OSCRE), have signed the NBIMS Charter inacknowledgement of the shared interests and commitment to creation and dissemination of open, integrated, and internationally recognized standards. Nomenclature specific to North American business practices will be used in the U.S. NBIMS Initiative. Consultations with organizations in other countries have indicated that the U.S.-developed NBIM Standard, once it is localized, will be useful internationally as well. Continued internationalization is considered essential to growth of the U.S. and international building construction industries.BIM Overall Scope and DescriptionBuilding Information Modeling (BIM) has become a valuable tool in some sectors of the capital facilities industry. However in current usage, BIM technologies tend to be applied within vertically integrated business functions rather than horizontally across an entire facility lifecycle. Although the term BIM is routinely used within the context of vertically integrated applications, the NBIMS Committee has chosen to continue using this familiar term while evolving the definition and usage to represent horizontally integrated building information that is gathered and applied throughout the entire facility lifecycle, preserved and interchanged efficiently using open and interoperable technology for business, functional and physical modeling, and process support and operations. 1 Charter for the National Building Information Modeling (BIM) Standard, December 15, 2005, pg.1. See /bim/pdfs/NBIMS_Charter.pdf .Section 1 – Introduction to the National BIM Standard V 1 - Part 1Chapter 1.1National Building Information Modeling Standard™©2007 National Institute of Building Sciences. All rights reserved .NBIM Standard Scope and DescriptionThe NBIMS Initiative recognizes that a BIM requires a disciplined and transparent data structure supporting all of the following.x A specific business case that includes an exchange of building information. x The users’ view of data necessary to support the business case. x The machine interpretable exchange mechanism (software) for the required information interchange and validation of results.This combination of content selected to support user needs and described to support open computer exchange form the basis of information exchanges in the NBIM Standard. All levels must be coordinated for interoperability, which is the focus of the NBIMS Initiative. Therefore, the primary drivers for defining requirements for the National BIM Standard are industry standard processes and associated information exchange requirements.In addition, even as the NBIM Standard is focused on open and interoperable informationexchanges, the NBIMS Initiative addresses all related business functioning aspects of the facility lifecycle. NBIMS is chartered as a partner and an enabler for all organizations engaged in the exchange of information throughout the facility lifecycle.Data Modeling for BuildingsKey to the success of a building information model is its ability to encapsulate, organize, and relate information for both user and machine-readable approaches. These relationships must be at the detail level, relating, for example, a door to its frame or even a nut to a bolt, whilemaintaining relationships from a detailed level to a world view. When working with as large a universe of materials as exists in the built environment, there are many traditional verticalintegration points (or stovepipes) that must be crossed and many different languages that must be understood and related. Architects, engineers, as well as the real estate appraiser or insurer must be able to speak the same language and refer to items in the same terms as the first responder in an emergency situation. Expand this to the world view where systems must be interoperable in multiple languages in order to support the multinational corporation. Over time ontologies will be the vehicles that allow cross communication to occur. In order to standardize these many options, organizations need to be represented and solicited for input. There are several, assumed to be basic, approaches in place that must come together in order to ensure that a viable and comprehensive end-product will be produced.The Role of InteroperabilitySoftware interoperability is seamless data exchange at the software level among diverseapplications, each of which may have its own internal data structure. Interoperability is achieved by mapping parts of each participating application’s internal data structure to a universal data model and vice versa. If the employed universal data model is open, any application canparticipate in the mapping process and thus become interoperable with any other application that also participated in the mapping. Interoperability eliminates the costly practice of integrating every application (and version) with every other application (and version).The NBIM Standard maintains that viable software interoperability in the capital facilities industry requires the acceptance of an open data model of facilities and an interface to that data model for each participating application. If the data model is industry-wide (i.e. represents the entire facility lifecycle), it provides the opportunity to each industry software application to become interoperable.Section 1 – Introduction to the National BIM Standard V 1 - Part 1Chapter 1.1National Building Information Modeling Standard™©2007 National Institute of Building Sciences. All rights reserved .Storing and Sharing InformationOne of the innovations, demonstrated by some full-service design and engineering firms and several International Alliance for Interoperability (IAI) demonstration projects, has been the use of a shared repository of building information data. A repository may be created by centralizing the BIM database or by defining the rules through which specific components of BIM models may be shared to create a decentralized shared model. As BIM technology and use matures, thecreation of repositories of project, organization, and/or owner BIM data will have an impact on the framework under which NBIMS operates. Owners are likely to create internally as-built and as-maintained building model repositories, which will be populated with new and updated information supplied via design/construction projects, significant renovations, and routine maintenance and operations systems.Information AssuranceThe authors caution that, while a central (physical or virtually aggregated) repository of information is good for designing, constructing, operating, and sustaining a facility, and therepository may create opportunities for improved efficiency, data aggregation may be a significant source of risk.Managing the risks of data aggregation requires advanced planning about how best to control the discovery, search, publication, and procurement of shared information about buildings and facilities. In general, this is addressed in the data processing industry through digital rights management. Digital rights management ensures that the quality of the information is protected from creation through sharing and use, that only properly authorized users are granted access, and only to that subset of information to which they should have access. There is a need toensure that the requirements for information are defined and understood before BIMs are built, so that facility information receives the same protection that is commonplace in world-wide personnel and banking systems.Minimum BIM and the Capability Maturity ModelThe NBIM Standard Version 1 - Part 1 defines a minimum standard for traditional vertical construction, such as office buildings. It is assumed that developing information exchange standards will grow from this minimum requirement.The Standard also proposes a Capability Maturity Model (CMM) for use in measuring the degree to which a building information model implements a mature BIM Standard. The CMM scores a complete range of opportunity for BIMs, extending from a point below which one could say the data set being considered is not a BIM to a fully realized open and interoperable lifecycle BIM resource.The U.S. Army Corps of Engineers BIM Roadmap 2 is presented as a useful reference for building owners seeking guidance on identifying specific data to include in a BIM from a design or construction perspective.2 See https:///default.aspx?p=s&t=19&i=1 for the complete roadmap.Section 1 – Introduction to the National BIM Standard V 1 - Part 1Chapter 1.1National Building Information Modeling Standard™©2007 National Institute of Building Sciences. All rights reserved .NBIM Standard Process DefinitionProposals for the processes the NBIMS Committee will employ to produce the NBIM Standard and to facilitate productive use are discussed. A conceptual diagram to orient the user is provided. Components of this diagram correspond to section 5 chapters.Both the process used to create the NBIM Standard and the products are meant to be open and transparent. The NBIMS Committee will employ consensus-based processes to promote industry-wide understanding and acceptance. Additionally, the Committee will facilitate the process whereby software developers will implement standard exchange definitions and implementations tested for compliance. Finally, the NBIMS Committee will facilitate industry adoption and beneficial use through guides, educational activities, and facilitation of testing by end users of delivered BIMs.The Information Exchange Template, BIM Exchange Database, the Information Delivery Manual (IDM), and Model View Definition (MVD) activities together comprise core components of the NBIM Standard production and use process. The Information Exchange Template and BIM Exchange Database are envisioned as web-based tools to provide search, discovery, and selection of defined exchanges as well as a method of providing initial information necessary to propose and begin a new exchange definition discussion. The NBIMS workgroup formation phase teams will use the IDM, adapted from international practices, to facilitate identification and documentation of information exchange processes and requirements. IDM is the user-facing phase of NBIMS exchange standard development with results typically expressed in human-readable form. MVD is the software developer-facing phase of exchange standard development. MVD is conceptually the process which integrates Exchange Requirements (ERs) coming from many IDM processes to the most logical Model Views that will be supported by softwareapplications. Implementation-specific guidance will specify structure and format for data to be exchanged using a specific version of the Industry Foundation Classes (IFC or ifc) specification. The resulting generic and implementation-specific documentation will be published as MVDs, as defined by the Finnish Virtual Building Environment (VBE) project,3 the Building Lifecycle Interoperability Consortium (BLIS),4 and the International Alliance for Interoperability (IAI).5 The Committee will work with software vendors and the testing task team members to plan and facilitate implementation, testing, and use in pilot projects. After the pilot phase is complete, the Committee will update the MVD documents for use in the consensus process and ongoing commercial implementation. Finally, after consensus is reached, MVD specifications will be incorporated in the next NBIMS release.NBIMS AppendicesReference standards in the NBIM Standard provide the underlying computer-independent definitions of those entities, properties, relationships, and categorizations critical to express the rich language of the building industry. The reference standards selected by the NBIMSCommittee are international standards that have reached a critical mass in terms of capability to share the contents of complex design and construction projects. NBIMS V1-P1 includes three candidate reference standards as Appendix documents: IAI Industry Foundation Classes (IFC or ifc), Construction Specifications Institute (CSI) OmniClass ™, and CSI IFDLibrary ™.3http://cic.vtt.fi/projects/vbe-net/4 5Section 1 – Introduction to the National BIM Standard V 1 - Part 1Chapter 1.1National Building Information Modeling Standard™©2007 National Institute of Building Sciences. All rights reserved .The IFC data model consists of definitions, rules, and protocols that uniquely define data sets which describe capital facilities throughout their lifecycles. These definitions allow industrysoftware developers to write IFC interfaces to their software that enable exchange and sharing of the same data in the same format with other software applications, regardless of the internal data structure of the individual software application. Software applications that have IFC interfaces are able to exchange and share data with other application that also have IFC interfaces.The OmniClass ™ Construction Classification System (OmniClass or OCCS) is a multi-tableclassification system designed for use by the capital facilities industry. OmniClass includes some of the most commonly used taxonomies in the capital facilities industry. It is applicable for organizing many different forms of information important to the NBIM Standard, both electronic and hard copy. OCCS can be used in the preparation of many types of project information and for communicating exchange information, cost information, specification information, and other information that is generated throughout the facility’s lifecycle.IFDLibrary ™ is a kind of dictionary of construction industry terms that must be used consistently in multiple languages to achieve consistent results. Design of NBIMS relies on terminology and classification agreement (through OmniClass ) to support model interoperation. Entries in the OmniClass tables can be explicitly defined in the IFDLibrary once and reused repeatedly,enabling reliable automated communications between applications – a primary goal of NBIMS. ReferencesNBIMS References in this document represent the work of many groups working in parallel to define BIM implementation for their areas of responsibility. Currently there are four types of references.x Business Process Roadmaps are documents that provide the business relationships of the various activities of the real property industry. These will be the basis for organizing the business processes and will likely be further detailed and coordinated over time. The roadmaps will help organize NBIMS and the procedures defined in the InformationDelivery Manuals (IDMs).x Candidate Standards are documents that are candidates to go through the NBIMS consensus process for acceptance as part of future NBIMS. It is envisioned that Part 2 or later releases of the Standard will incorporate these documents once approved.x Guidelines have been developed by several organizations and include items that should be considered for inclusion in NBIMS. Since NBIMS has not existed prior to this, there was no standard from which to work, resulting in a type of chicken-or-egg dilemma.When formal NBIMS exists there will need to be some harmonization, not only between the guidelines and NBIMS, but also in relating the various guidelines to each other.While guidelines are not actually a part of NBIMS, they are closely related and therefore included as references.xOther Key References are to parallel efforts being developed in concert with NBIMS. Not part of NBIMS, they may, in fact, be standards in their own right.。

建筑设计特别嘉许奖 Special Recognition in Architectural Design36 WORLD ARCHITECTURE REVIEW 建筑时空ARCHITECTURE NOWBetaPort 是由空间创新工作室Urban Beta 发明和设计的，工作室不断创造包容、非传统和变革性的空间，采用参与式方法开发空间系统。

BetaPort 本身则是一种经过认证的专利建筑技术。

每个元素都在工厂进行测试和质量检查，以保证产品质量。

在现场，所有元件都可以快速轻松地组装。

除此以外，BetaPort 也提供了适配的配置器使设计变得简单且具有成本效益，为循环经济提供了变革性的项目开发与可持续建筑技术。

缺乏生活空间、空间效率、可持续性等的城市挑战需要新的、以需求为导向的整体方法，Urban Beta 的工作即是涉及社会正义、预测性规划、共同创造和设计民主化的探索与尝试。

Betaport Providing Scalable Building Solutions for a Circular Future BetaPort provides circular "Building As a Service" (BAaS) solutions for sustainable architectures on-demand. We offer adaptive spaces that are flexible in use and follow an open-source mentality. Our system can grow over time and adapt to future use cases, activated through predictive planning for maximum efficient layouts. BetaPort offers the seamless integration of technical solutions as well as a circular production chain, including material tracking. Sustainable Architecture, digitally planned, using Automation The BetaPort system is built upon highly flexible interior layouts, based on modular, reversible building blocks.The design can react to changes, like varying capacities or alternating functions. BetaPort comes with its own digital planning tool: The BetaPort configurator. It serves as an interactive platform to connect various project stakeholders, decision makers, planners and users alike. Using machine learning and custom algorithms the configurator is designed for playful and efficient planning. It eliminates planning errors , anticipates building costs and creates production data. Affordable and Easy to Build BetaPort construction has a certified and patented building technology with a streamlined production. Every element is tested and quality checked in the factory to guarantee a great product. On site all elements are easy to assemble, by skilled and non-skilled workers. BetaPort fosters the democratization of construction through its participatory, systematic and open-source approach to building. We offer digital manuals for all building scales and sizes, including custom elements. Completely designed on Circular Economy Principles Designed for disassembly: BetaPort uses material passport and reversible connections. Completely designed from renewables or cycled materials BetaPort aims to provide sustainable buildings that create carbon sinks and active material depots. Innovative material sourcing and combination strategies allow for upcycled and secondary materials in the construction system. In this way BetaPort enables new business models, based on space on-demand solutions, service and subscription models to create "Buildings as a Service" (BaaS).BetaPort ONE BetaPort One is the world's first circular hub on-demand, completely implemented with our efficient planning process and our ecological building system. BetaPort One seamlessly integrates innovative mobility solutions and charging infrastructure into a new generation mobility hub: circular, sustainable, participatory planned and easy to scale. With our circular design approach, every BetaPort ONE pop-up becomes an actively managed material depot including material passports. Thanks to an ecosystem of components, rooms can easily be added, relocated or remodeled. Relocation to other locations is possible ina short time thanks to the simple construction system.BetaPort– Circular Building Technology On-Demand贝塔波特 —— 按需循环建筑技术建筑设计：Urban Beta UGDesign Company: Urban Beta UGCopyright ©博看网. All Rights Reserved.。

2024年建筑业新技术10项研究英文版Title: Research on 10 New Technologies in the Construction Industry in 20241. IntroductionIn 2024, the construction industry is expected to see significant advancements in technology. This research document will explore 10 new technologies that are set to revolutionize the construction sector.2. RoboticsRobots are increasingly being used in construction for tasks such as bricklaying, demolition, and excavation. The research will delve into the latest robotic technologies that are being adopted in the industry.3. 3D Printing3D printing is gaining popularity in construction for creating complex and customized structures. The document will investigate the advancements in 3D printing technology for construction applications.4. DronesDrones are being used for surveying, site inspection, and monitoring in the construction industry. The research will analyze the latest drone technologies that are enhancing efficiency and safety on construction sites.5. Building Information Modeling (BIM)BIM is a digital representation of a building's physical and functional characteristics. The document will explore the latest trends in BIM technology and its impact on the construction process.6. Virtual Reality (VR) and Augmented Reality (AR)VR and AR technologies are being used for design visualization, training, and safety simulations in construction. The research will examine the latest developments in VR and AR applications for the construction industry.7. Internet of Things (IoT)IoT devices are being integrated into construction equipment and tools for real-time monitoring and data collection. The document willinvestigate the role of IoT in improving productivity and efficiency in construction projects.8. Sustainable MaterialsThe construction industry is shifting towards sustainable materials to reduce environmental impact. The research will explore the latest advancements in sustainable materials and their applications in construction.9. Smart BuildingsSmart building technologies are enhancing energy efficiency, comfort, and security in buildings. The document will analyze the latest smart building solutions that are transforming the construction industry.10. Modular ConstructionModular construction involves assembling prefabricated modules off-site and then transporting them to the construction site for assembly. The research will delve into the latest innovations in modular construction techniques.ConclusionThe construction industry in 2024 is poised for a technological revolution with the adoption of advanced technologies. This research document provides insights into 10 new technologies that are shaping the future of construction.。

英国智能地板闯入中国市场
金燕侠
【期刊名称】《建材工业信息》
【年(卷),期】2002(000)012
【总页数】1页(P18)
【作者】金燕侠
【作者单位】无
【正文语种】中文
【中图分类】F755.616.5
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因版权原因，仅展示原文概要，查看原文内容请购买。

区块链baas标准区块链技术作为一种分布式账本技术，在金融、供应链、医疗等领域得到了广泛的应用。

为了方便企业和个人开发区块链应用，BaaS （Blockchain as a Service）服务应运而生。

BaaS是一种云服务模式，使用户能够使用云平台上的区块链实例来构建、部署和管理自己的区块链应用。

然而，由于缺乏统一的标准，导致当前BaaS服务的互操作性和可扩展性存在一定的限制。

因此，制定区块链BaaS标准具有重要的意义。

一、BaaS标准的必要性1.促进互操作性：制定BaaS标准可以帮助不同的BaaS服务提供商之间进行互操作，使得用户可以跨不同平台和提供商使用他们的区块链应用。

只有具备互操作性，才能真正实现区块链的无缝连接。

2.提升安全性：BaaS服务涉及到敏感的数据和资产。

通过制定BaaS标准，可以确保在不同BaaS服务之间数据和资产传输的安全性，防止恶意攻击和数据泄露，保护用户权益。

3.提高可扩展性：BaaS服务的可扩展性是保证服务质量和用户体验的关键。

制定BaaS标准可以规范开发和部署流程，使得BaaS服务能够快速扩展，应对日益增长的用户需求。

二、BaaS标准的内容1.接口标准：定义常用的API接口，包括账户管理、数据查询、合约部署等功能。

统一接口标准可以提供给开发者一个统一的编程接口，方便开发和迁移区块链应用。

2.数据标准：定义数据的格式和结构，确保在不同BaaS服务之间的数据传输和存储的一致性。

统一数据标准有助于数据的共享和交流，提升业务流程的效率。

3.身份认证标准：制定与区块链身份验证相关的标准，确保用户的身份信息的安全和准确性。

通过身份认证标准，可以防止冒名顶替等安全威胁。

4.安全标准：定义BaaS服务的安全要求和控制措施。

包括数据加密、访问控制、审计等方面的标准，以防止恶意攻击和数据泄露。

5.性能标准：制定BaaS服务的性能要求，包括交易吞吐量、响应时间等。

通过性能标准，可以确保BaaS服务能够满足用户的需求。