1. D-Link International Private Limited Training and Staff Development Department Module : Network Attached Storage Module : Network Attached Storage

2. Objective To identify the use of NAS To learn how to setup NAS To learn to setup different feature of D-Link NAS

3. What’s In It For Me (WIIFM) As a D-Link Technical Support Agent it is important to know the use of D-Link NAS. - How to setup DNS-313, DNS-323 and DNS-343 using Windows XP and MAC OS. - Understand D-Link NAS installation and features, you will be able to provide fast and effective procedures to address customers needs.

4. COURSE OUTLINE  Introduction to NAS Introduction to NAS  Features of NAS Features of NAS  Installation Procedure Installation Procedure  Different Pages of D-Link NAS Servers Different Pages of D-Link NAS Servers  Raid Configuration Raid Configuration  Mounting/Mapping Procedure Mounting/Mapping Procedure  BitTorrent Download BitTorrent Download

5. Network Storage Enclosure enables you to add disk storage on the network to share documents, files, and digital media such as music, videos and photos. With 4 bays, this storage enclosure is ideal for server deployment in office settings, allowing businesses to flexibly add up to four internal SATA drives on a per- need basis to fulfil storage requirements as they grow. Remote access to files from the Internet is also possible with the built-in FTP server. With this FTP feature, company employees can access work files via the Internet while outside the office. Introduction to NAS

6. How NAS work

7. Remote PC can access files using FTP Server PC connected to the Network can Save and Retrieve files from NAS also with a printer attached to the NAS printer sharing is at ease. With the use of NAS you can play saved Video/Music/Pictures without a PC is switch on Features of NAS How NAS work

8. Installation of D-Link NAS Installing using Windows Installing using MAC OS X

9. Mounting/Mapping Drive to PC

10. D-Link DNS Pages Setup > LAN PageDNS-313

11. Setup > LAN PageDNS-323 D-Link DNS Pages

12. Setup > LAN PageDNS-343

13. D-Link DNS Pages Setup > Device PageDNS-323

14. D-Link DNS Pages Setup > Device PageDNS-313

15. D-Link DNS Pages Setup > Device PageDNS-343

16. D-Link DNS Pages User/Group & Network Access DNS-323Advance Tab

17. D-Link DNS Pages User/Group & Network Access DNS-313Advance Tab

18. D-Link DNS Pages Advance TabDNS-343 User/Group & Network Access

19. D-Link DNS Pages DNS-323Advance > Quotas

20. D-Link DNS Pages DNS-343Advance > Quotas

21. D-Link DNS Pages Advance > FTPDNS-323

22. D-Link DNS Pages Advance > FTPDNS-313

23. D-Link DNS Pages Advance > FTPDNS-343

24. D-Link DNS Pages Advance > UPnPDNS-323

25. D-Link DNS Pages Advance > UPnPDNS-313

26. D-Link DNS Pages Advance > UPnPDNS-343

27. D-Link DNS Pages Advance > iTunesDNS-323

28. D-Link DNS Pages Advance > iTunesDNS-313

29. D-Link DNS Pages Advance > iTunesDNS-343

30. D-Link DNS Pages Advance > DHCPDNS-323

31. D-Link DNS Pages Advance > DHCPDNS-313

32. D-Link DNS Pages Advance > DHCPDNS-343

33. D-Link DNS Pages Advance > LLTDDNS-323

34. D-Link DNS Pages Advance > LLTDDNS-343

35. Raid Configuration RAID, short for Redundant Array of Independent Disks, is a combination of two or more disks with the aim of providing fault tolerance and improving performance. There are several different levels of RAID, with each one providing a different method of sharing or distributing data among the drives. JBOD RAID 0 RAID 1 RAID 5

36. Raid 0 - Striping "Striped set without parity" or "Striping". Provides improved performance and additional storage but no redundancy or fault tolerance. Any disk failure destroys the array, which becomes more likely with more disks in the array. A single disk failure destroys the entire array because when data is written to a RAID 0 drive, the data is broken into fragments. The number of fragments is dictated by the number of disks in the array. The fragments are written to their respective disks simultaneously on the same sector. This allows smaller sections of the entire chunk of data to be read off the drive in parallel, increasing bandwidth. RAID 0 does not implement error checking so any error is unrecoverable. More disks in the array means higher bandwidth, but greater risk of data loss.

37. Raid 1 - Mirror A RAID 1 creates an exact copy (or mirror) of a set of data on two or more disks. This is useful when read performance or reliability are more important than data storage capacity. Such an array can only be as big as the smallest member disk. A classic RAID 1 mirrored pair contains two disks (see diagram), which increases reliability geometrically over a single disk. Since each member contains a complete copy of the data, and can be addressed independently, ordinary wear-and-tear reliability is raised by the power of the number of self-contained copies

38. RAID 5 provides data striping with distributed parity, which stores information that can be used to reconstruct data. A RAID 5 array will be the size of all the combined disks capacity less the capacity of one disk, e.g. If there are 4x 80GB disks in the array, the arrays capacity will be 240GB (3x80GB). Implementing RAID 5 on the DNS-343 allows it to continue operating even if one of the disks fails. The diagram below indicates the operation of RAID 5. Raid 5 - data striping with distributed parity

39. BOD (for "just a bunch of disks," or sometimes "just a bunch of drives") is a derogatory term - the official term is "spanning" - used to refer to a computer's hard disks that haven't been configured according to the RAID (for "redundant array of independent disks") system to increase fault tolerance and improve data access performance. JBOD – Just Bunch Of Disk

40. RAID Configuration TOOLS > RAID DNS-323

41. RAID Configuration ADVANCE > RAID DNS-343

42. RAID Configuration ADVANCE > RAID DNS-343

43. STATUS PAGE DNS-323

44. STATUS PAGE DNS-313

45. STATUS PAGE DNS-343

46. BitTorrent Download Click to Play Video >