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課堂錄影隨時睇 10 大優點之免費試讀:無條件免費試讀,讓您毋須擔心錄影課程及導師質素,信心保證!

CCDP 國際認可證書課程
本課程只會教授 ARCH (Designing Cisco Network Service Architectures,300-320)

  • 課程時間
  • 課程簡介
  • 課程特點
  • 考試須知
  • 課程器材
  • 課程內容

推介服務:課堂錄影隨時睇
編號 地點 可預約星期及時間 學費低至 85 折  
DN1712MV 旺角 一至五:11:30 - 22:30   六及日:10:30 - 21:30   (公眾假期休息) 95 折後只需 $3,781 按此報名
DN1712OV 觀塘 一至五:13:30 - 22:00   六及日:12:30 - 21:00   (星期三及公眾假期休息) 9 折後只需 $3,582 按此報名
DN1712PV 北角 一至五:13:30 - 22:00   六及日:12:30 - 21:00   (星期三及公眾假期休息) 9 折後只需 $3,582 按此報名
DN1712SV 沙田 一至五:13:30 - 22:00   六及日:12:30 - 21:00   (星期三及公眾假期休息) 85 折後只需 $3,383 按此報名
DN1712YV 屯門 一至五:13:30 - 22:00   六及日:12:30 - 21:00   (星期三及公眾假期休息) 85 折後只需 $3,383 按此報名
* 各政府部門可使用 P Card 付款  
免費試睇: 首 1 小時,請致電與本中心職員預約。 查看各地點電話
旺角 2332-6544
觀塘 3563-8425
北角 3580-1893
沙田 2151-9360
屯門 3523-1560
免費重睇: 學員可於享用時期內於報讀地點不限次數地重看課堂錄影,從而可反覆重溫整個課程!
導師解答: 學員可於觀看某一課堂錄影後提出課堂直接相關的問題,課程導師會樂意為學員以單對單的形式解答!
課時: 18 小時
享用時期: 6 星期 (可於報讀日至 4 星期內觀看整個課程,另加 2 星期備用時期)。進度由您控制,可快可慢。
課堂錄影導師: Franco (任教課程清單)
課堂錄影隨時睇: 詳情及示範片段


Cisco Systems Inc. 是全球最大的網路設備生產商,在世界各地設有120個以上的分支據點。Cisco的產品包括Switch (交換器)、LAN Router (區域網路由器)、WAN Router (廣域網路由器) 及IOS (Internetwork Operating System) 網路管理操作系統等。全球的大企業、銀行、大學和政府機構之網路設備,無一不採用 Cisco 的產品,因此,管理Cisco網路設備便成為一門專業的學問。

為了能證明你有專業水準來規劃高質素、具效率、可擴展的Cisco網路,Cisco推出其CCDP (Cisco Certified Design Professional,Cisco認可規劃專業人士) 國際認可證書。要考取 CCDP 國際認可證書,必須通過以下 3 科的考試及持有有效的 CCNA 及 CCDA 證書:

  1. SWITCH (Implementing Cisco IP Switched Networks, 300-115) – 已於 CCNP國際認可證書課程 教授。
  2. ROUTE (Implementing Cisco IP Routing,300-101) – 已於 CCNP國際認可證書課程 教授。
  3. ARCH (Designing Cisco Network Service Architectures,300-320) – CCDP 國際認可證書課程只會教授此科目。
本中心的CCDP課程由擁有三項CCIE (Triple CCIE in R&S, Security and Service Provider) 資格的 Franco Tsang 籌備多時,精心編排。由上堂、溫習、考試研習、做試題至最後考試,均為你度身訂造,作出有系統的編排。務求真正教識你,又令你考試及格。

課程時數: 共 18 小時課堂 (共 6 堂)
適合人士: 對電腦網路安裝及使用有基本認識或有志投身 I.T. 界的人士
授課語言: 以廣東話為主,輔以英語
課程筆記: 本中心導師親自編寫英文為主筆記,而部份英文字附有中文對照。

1. Franco Tsang (擁有 Triple CCIE認證) 親自教授: Franco 善於控制學習節奏,深入淺出,令學員在輕鬆氣氛下,掌握電腦技巧。
2. Franco Tsang 親自編寫筆記: Franco 親自編寫筆記,絕對適合考試及實際管理網路之用,令你無須「死鋤」如字典般厚及不適合香港讀書格調的書本。
3. 提供模擬考試題目: 本中心為學員提供充足的條模擬考試題目,每條考試題目均附有標準答案。而較難理解的題目,均會附有 Franco 的解釋。
4. 理論與實習並重: 本中心的 CCDP 課程並不會空談理論,Franco (擁有 Triple CCIE 資格) 會設計多個實習令同學了解 Cisco DESIGN 的神髓。
5. 免費重讀: 傳統課堂學員可於課程結束後三個月內免費重看課堂錄影。

CCDP (Cisco Certified Design Professional,Cisco 認可規劃專業人士) 其實是由 Cisco 頒發的一項國際認可高級證書。高級證書意即你不能直接考取 CCDP,而必須首先考取到 Cisco 的初級證書 CCNA 及 CCDA,才可考取 CCDP

只要你於下列 3 個科目取得合格成績,便可獲 Cisco 頒發 CCDP 國際認可證書

考試編號

科目名稱

簡稱

300-115

Implementing Cisco IP Switched Networks

SWITCH

300-101

Implementing Cisco IP Routing

ROUTE

300-320

Designing Cisco Network Service Architectures (ARCH)

ARCH


本中心為 Cisco 指定的 CCDP 考試試場,報考時請致電本中心,登記欲報考之科目考試編號、考試日期及時間 (最快可即日報考)。

臨考試前要繳付考試費 HK$2,348,及必須出示下列兩項有效之身份證明文件,否則考生不可進行考試,而已繳付之考試費亦不會退回:
1. 香港身份證   及
2. 附有考生姓名及簽名的證件 (如信用咭、香港特區護照、BNO等)

考試題目由澳洲考試中心傳送到你要應考的電腦,考試時以電腦作答。所有考試題目均為英文,而大多數的考試題目為單項選擇題 (意即 O) 或多項選擇題 (意即 口),其餘則為配對題及實戰題。作答完成後會立即出現你的分數,結果即考即知!考試不合格便可重新報考,不限次數。欲知道作答時間、題目總數、合格分數等詳細考試資料,可瀏覽本中心網頁 "各科考試分數資料"。




為進一步加強本中心 Cisco 的課程質素,本中心投放大量資源購買 Cisco 器材,以供學員進行實習。以下是本中心擁有的 Cisco 器材 (種類繁多,未能盡錄):


CCDP: Cisco Router 800 Series (ISR) CCDP: Cisco Router 2500 Series
Cisco Router 800 Series (ISR)
Cisco Router 2500 Series

   
CCDP: Cisco Router 2600 Series CCDP: Cisco Router 2800 Series (ISR)
Cisco Router 2600 Series Cisco Router 2800 Series (ISR)
   
CCDP: Cisco Router 2900 Series (ISR) CCDP: Cisco Router 3600 Series
Cisco Router 2900 Series (ISR) Cisco Router 3600 Series
   
CCDP: Cisco Router 3800 Series (ISR) CCDP: Cisco Router 4000 Series 
Cisco Router 3800 Series (ISR)  Cisco Router 4000 Series
   
CCDP: Cisco Catalyst Switch 1900 Series CCDP: Cisco Catalyst Switch 2950 Series
 Cisco Catalyst Switch 1900 Series Cisco Catalyst Switch 2950 Series
   
CCDP: Cisco Catalyst Multilayer Switch 3550 Series CCDP: Cisco Catalyst Multilayer Switch 3560 Series
Cisco Catalyst Multilayer Switch 3550 Series Cisco Catalyst Multilayer Switch 3560 Series
   
CCDP: Cisco Catalyst Multilayer Switch 3560X Series CCDP: Cisco Catalyst Multilayer Switch 3560 Series

Cisco Catalyst Multilayer Switch 3560X Series

Cisco Catalyst Multilayer Switch 3750G Series
   
CCDP: Cisco Catalyst Multilayer Switch 3750X Series CCDP: Cisco Catalyst Multilayer Switch 5000 Series
Cisco Catalyst Multilayer Switch 3750X Series Cisco Catalyst Multilayer Switch 5000 Series
   
CCDP: Cisco PIX Firewall CCDP: Cisco LightStream 1010 ATM Switch
Cisco PIX Firewall Cisco LightStream 1010 ATM Switch
   
CCDP: Cisco ATM Module CCDP: Cisco FXS Voice Module
Cisco ATM Module Cisco FXS Voice Module 
   
CCDP: Cisco IP Phone 7911G CCDP: Cisco Wireless LAN Controller 2106
Cisco IP Phone 7911G Cisco Wireless LAN Controller 2106 
   
CCDP: Cisco Aironet Lightweight Access Point 1130AG CCDP: PSTN Simulator
Cisco Aironet Lightweight Access Point 1130AG PSTN Simulator
   
CCDP: ISDN Simulator CCDP: Cisco ASA 5505
ISDN Simulator Cisco ASA 5505
   
CCDP: Cisco ASA 5510 CCDP: Cisco Catalyst Multilayer Switch 3560 Series
Cisco ASA 5510 Cisco ASA 5512X
   
CCDP: Cisco IPS 4210  
Cisco IPS 4210  



1 Role of Network Design

2 Lab Physical Topology

3 Design Advanced Enterprise Campus Network
3.1 In-Depth Ethernet Address Understanding
3.2 Basic CAM Table Operation
3.3 Advanced CAM Table Topic: MAC Change Notification
3.3.1 Demonstration: MAC Address Table Change Notification
3.3.2 Q-in-Q Tunnelling
3.4 Demonstration: Configure Q-in-Q tunnel
3.5 Basic Spanning-tree protocol (STP) Concepts
3.5.1 Elect Root Bridge
3.5.2 Elect Root Port
3.5.2.1 Demonstration: Study of STP Cost
3.5.2.2 Demonstration: Study the effect of port priority
3.5.3 Elect Designated Port
3.6 PVST and its application
3.6.1 Demonstration: Study default PVST environment
3.7 HSRP and PVST
3.8 Protecting Layer 2 environment
3.8.1 Loop guard
3.8.2 Demonstration: Loop guard
3.9 CST
3.10 MST
3.10.1 Demonstration: MST
3.11 UDLD
3.12 Advanced Layer 2 design
3.12.1 Looped Triangle
3.12.2 Looped Square
3.12.3 Loop-free U
3.12.4 Loop-free inverted U
3.12.5 Flex Link
3.13 CEF Polarization

4 Design Advanced IP Routing
4.1 Subnet-Zero
4.2 Considerations when choosing routing protocols
4.2.1 IGP (Interior Gateway Protocol)
4.3 BFD
4.3.1 Demonstration: BFD in OSPF
4.3.2 BFD in BGP, EIGRP, IS-IS and HSRP
4.4 Advanced EIGRP design
4.4.1 EIGRP Stub
4.4.1.1 Problems that may face in the EIGRP without proper stub design
4.4.1.2 EIGRP Stub features
4.4.1.3 Demonstration: EIGRP Stub
4.4.2 Dual-AS EIGRP routing
4.4.2.1 Demonstration: Dual-AS EIGRP routing
4.5 Advanced OSPF design
4.5.1 Metric and auto-cost reference-bandwidth
4.5.1.1 Demonstration: Metric and auto-cost reference-bandwidth
4.6 Advanced BGP design
4.6.1 iBGP split horizon rule
4.6.1.1 Demonstration: iBGP peering study (Part 1: Basic Configurations)
4.6.1.2 Demonstration: iBGP peering study (Part 2: Fully-meshed iBGP peerings)
4.6.1.3 Demonstration: iBGP peering study (Part 3: Route Reflector [RR])
4.6.1.4 Demonstration: iBGP peering study (Part 4: Confederation)
4.6.2 BGP attributes
4.6.2.1 Next Hop
4.6.2.2 Local Preference
4.6.2.3 Origin
4.6.2.4 AS Path
4.6.2.5 MED (Multi-Exit Discriminator)
4.6.2.6 Weight
4.6.3 BGP route selection
4.6.3.1 Demonstration: eBGP
4.6.3.2 Demonstration: iBGP
4.6.3.3 Demonstration: Local Preference
4.6.3.4 Demonstration: Weight
4.6.3.5 Demonstration: Origin
4.6.3.6 Demonstration: MED
4.6.3.7 Demonstration: AS Path Prepend
4.7 VRF-Lite
4.7.1 Demonstration: Create VRFs and Assigning VRFs to interfaces.
4.7.2 Demonstration: VRF – Static Routing
4.8 OSPF / IS-IS fast convergence
4.8.1 Convergence / Fast convergence

5 Design Advanced Multicast and Multicast Routing
5.1 Introduction to Multicast
5.2 Advantages and disadvantages of Multicast
5.3 IGMP
5.4 Multicast Distribution Tree
5.4.1 Source Distribution Tree
5.4.2 Shared Distribution Tree
5.5 Multicast Routing Protocol - PIM
5.6 RP Notification
5.6.1 Static RP
5.6.2 Auto RP
5.6.3 BSR with PIMv2
5.7 Demonstration: PIM Dense Mode
5.8 RPF Issue in Multicast Routing
5.8.1 Demonstration: Study the RPF issue
5.9 Demonstration: PIM Sparse Mode – Static RP
5.10 Demonstration: PIM Sparse Mode - AutoRP
5.11 Demonstration: PIM Sparse Mode – BSR with PIMv2
5.12 Anycast RP
5.13 Bi-directional PIM
5.14 MSDP

6 Design Advanced WAN
6.1 MPLS
6.1.1 Demonstration of Layer 3 MPLS VPN
6.1.2 Demonstration of Layer 2 MPLS VPN

7 Design Advanced QoS
7.1 Introduction to QoS
7.2 General QoS guideline for Interactive-Video / Voice
7.3 General QoS guideline for Streaming-Video
7.4 QoS technology components
7.4.1 Classification
7.4.1.1 Introduction to NBAR
7.4.1.2 Applications and protocols identification
7.4.1.3 Protocol Discovery
7.4.1.4 Demonstration: NBAR Protocol Discovery
7.4.1.5 Demonstration: NBAR Classification
7.4.2 Policing and Shaping
7.4.2.1 Demonstration: Policing
7.4.2.2 Demonstration: Shaping
7.4.3 LLQ
7.4.3.1 Demonstration: LLQ
7.5 RSVP
7.5.1 Demonstration: RSVP
7.6 Tx Ring
7.7 AutoQoS

8 Design Advanced Security Solutions
8.1 VPN
8.1.1 IPsec VPN
8.1.2 Tunnel Mode and Transport Mode
8.1.2.1 Tunnel Mode
8.1.2.2 Transport Mode
8.1.3 Demonstration: Building IPsec Site-to-Site VPN with VTI
8.1.4 Easy VPN / EzVPN
8.1.4.1 EzVPN Components
8.1.4.2 Split tunnelling
8.1.4.3 RRI
8.1.4.4 Demonstration: EzVPN Server with DVTI
8.1.5 DMVPN
8.1.5.1 NHRP
8.1.5.2 Spoke-to-Spoke VPN
8.1.6 GET VPN
8.1.6.1 Header Preservation
8.1.6.2 KS
8.1.6.3 GM
8.1.7 SSL VPN
8.1.7.1 SSL VPN modes
8.1.8 Dynamic Reconfiguration in VPN Design
8.2 Advanced Firewall Technology
8.2.1 Routed mode
8.2.1.1 Demonstration: Configure routed mode firewall
8.2.2 Transparent mode
8.2.2.1 Demonstration: Configure transparent mode firewall
8.2.3 Contexts
8.2.3.1 Introduction to contexts
8.2.3.2 Moment to use contexts
8.3 IDS / IPS
8.3.1 Introduction to Sensor
8.3.2 Sensor Configured as IDS
8.3.3 Sensor Configured as IPS
8.3.4 More examples in IPS Design in Data Center environment
8.4 NAC
8.4.1 Introduction to NAC
8.4.2 NAC components
8.4.3 NAC deployment options

9 Design Advanced Data Center
9.1 Storage Area Network
9.1.1 Storage Architectures
9.1.2 SAN Overview
9.1.3 Benefit of using SAN
9.1.4 FC
9.1.4.1 Common FC Ports
9.1.4.2 FC Topologies
9.1.5 VSAN
9.1.6 VSAN Trunk
9.1.7 FSPF
9.1.8 IVR
9.1.9 FCIP and iSCSI
9.2 FabricPath
9.2.1 STP → vPC → FabricPath
9.2.2 FabricPath ports
9.2.3 FabricPath IS-IS
9.3 Fabric Extender (FEX) and Nexus 2000

10 Design Advanced Management Infrastructure
10.1 SLB
10.1.1 Two-Arm Load-Balancer (Routed mode)
10.1.2 One-Arm Load-Balancer
10.2 ACE

11 Design Advanced Wireless Infrastructure
11.1 802.11 frame types and their Wireshark captures
11.1.1 Beacon frame
11.1.2 Probe request frame
11.1.3 Probe response frame
11.1.4 Authentication frame
11.1.5 Association request frame
11.1.6 Association response frame
11.1.7 Request to Send (RTS) frame
11.1.8 Clear to Send (CTS) frame
11.2 Wireless LAN Controller (WLC) and lightweight AP
11.2.1 Demonstration: Enterprise Wireless LAN
11.2.1.1 Demonstration: Part 1: Topology
11.2.1.2 Demonstration: Part 2: Basic routing and switching preparation
11.2.1.3 Demonstration: Part 3: Factory reset the wireless lan controller (WLC)
11.2.1.4 Demonstration: Part 4: Configure prompt in WLC and basic ping tests
11.2.1.5 Demonstration: Part 5: WLC web interface
11.2.1.6 Demonstration: Part 6: Lightweight AP joins the WLC
11.2.1.7 Demonstration: Part 7: Configure hostname and IP of lightweight APs
11.2.1.8 Demonstration: Part 8: Create two dynamic interfaces for two SSIDs
11.2.1.9 Demonstration: Part 9: Create WLANs (SSIDs)
11.2.1.10 Demonstration: Part 10: Bind WLANs (SSIDs) to dynamic interfaces
11.2.1.11 Demonstration: Part 11: Configure layer 2 security
11.2.1.12 Demonstration: Part 12: Verify 2.4GHz and 5GHz radio in APs
11.2.1.13 Demonstration: Part 13: Wifi clients connect to “Guest” Wifi
11.2.1.14 Demonstration: Part 14: Wifi clients connect to “Internal” Wifi

12 Appendix: Design Advanced Voice Infrastructure
12.1 Voice Layer 2 Infrastructure
12.2 IP Phone
12.2.1 Some facts you have to know about IP Phones
12.3 CUCM (Cisco Unified Communications Manager)
12.3.1 Basic CUCM Configuration
12.4 CUCME (Cisco Unified Communications Manager Express)
12.4.1 SRST
12.5 Codec
12.5.1 Codec conversion in CUCM (From G.722 to G.729)
12.6 Call Admission Control (CAC) in Voice infrastructure
12.6.1 Call Admission Control in CUCM
12.7 Connect to PSTN (Public Switched Telephony Network)
12.7.1 Interfaces connecting to PSTN
12.7.2 How CUCM connect to PSTN?
12.7.3 How CUCM perform call routing to PSTN
12.7.4 Dial to PSTN with T1 interface and MGCP

13 Appendix: Other layer 2 technologies
13.1 Advanced VLAN Concepts
13.1.1 Demonstration: Creating Extended VLAN 3000
13.2 Voice VLAN and PoE (Power over Ethernet)
13.2.1 Reference: Configure Voice VLAN
13.3 Advanced Trunking and DTP Concepts
13.3.1 Is it Trunk?
13.3.2 How to trunk?
13.4 RSTP
13.4.1 Port Roles in RSTP
13.4.2 Port States in RSTP
13.4.3 New BPDU Handling Approaches
13.4.4 Edge ports and P2P (Point-to-Point) links
13.4.5 Demonstration: RSTP
13.5 StackWise
13.6 StackPower

 

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  • 婚姻的法律責任
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  英文課程
  • IPA 拼音:級別 1 2 3 4
  普通話課程
  • 基礎普通話拼音 (免費)
  • 進階普通話拼音
  • 普通話會話:級別 1 2 3
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  • 級別 1 2 3
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  • 紫微斗數:級別 1 2 3
  • 子平八字:級別 1 2 3
  • 八字風水:級別 1 2 3
  • 奇門遁甲:級別 1 2 3

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