Upload
mervin-williams
View
226
Download
0
Tags:
Embed Size (px)
Citation preview
We are learning to:
Make comparisons between different backing storage devices using their features.
Identify appropriate backing storage devices for a computer system/situation.
Perform calculations relating to the storage required for files.
Learning Intentions for this Unit of Work
Choose a backing storage devices for a given system or situation and justify my choice.
Show all of my working when performing storage calculations.
The Computer System
INPUT OUTPUT
BACKING
STORAGE
PROCESSOR
MAIN MEMORY
WRITE READ
1 bit – the smallest unit of memory 8 bits = 1 byte 1024 bytes = 1 Kilobyte (Kb) 1024 Kb = 1 Megabyte (Mb) 1024 Mb = 1 Gigabyte (Gb) 1024 Gb = 1 Terabyte (Tb)
Keep My Garden TidyKilobyte Megabyte Gigabyte Terabyte
The Main Memory is used to store our work while the computer is on. When the power is switched off this data is wiped.
Backing Storage devices are used to save our work and programs permanently.
Main Memory
Hard Disk with case removed
Terms you need to know ROM – Read Only Memory R – Recordable- Record up to the capacity
of the disc RW- Rewritable – Write over many times RE - Recordable Erasable (for Blu Ray)
Direct – Data can be written and read in any order
Sequential- Data can only be read in the order it was written.
Backing Storage Data Sheet
1. Name the 3 types of backing storage devices2. Which type of backing storage devices use a laser to
read and write data to it?3. Which type of backing store has no moving parts?4. Which backing storage device can hold up to 3
Terabytes of data?5. Which Solid backing storage devices is a read only
backing store?6. Which backing store only allows you to read the data
held on it order?7. Which backing storage device is commonly used to
store High Definition videos?8. Which Solid backing store is commonly found in
smartphones and digital cameras?9. How many Gigabytes are there in 2 Terabytes?
HINT 1 Terabyte = 1024 Gb
Backing Storage Questions
Answers
1. Magnetic, Optical and Solid2. Optical
3. Solid4. Hard Disk5. ROM cartridge6. Digital Audio Tape7. Blu Ray8. SD Memory Card
At the computer – www.pcworld.co.uk
For each of the backing storage devices find the highest capacity model and note its cost.
Cost per Gigabyte = Cost per item/ Capacity found
Example: ROM Cartridge: 20.00 / 8 = £2.50 per Gigabyte
Round up to the nearest penny
1. 16 bits – What is this in bytes? Remember 8 bits = 1 byte So 16 /8 = 2 bytes
2. 32 bits – What is this in bytes? Remember 8 bits = 1 byte 32/8 = 4 bytes
3. How many bytes in 256 bits? ANSWER: 256 / 8 = 32 bytes
4. How many bytes in 512 bits? ANSWER 512/8 = 64 bytes
5. How many Kilobytes in 2048 bytes ANSWER: 2048 / 1024 = 2 Kb
6. How many Megabytes in 4096 Kilobytes ANSWER: 4096 / 1024 = 4Mb
5. How many Kilobytes in 2048 bits ANSWER: 2048 / 1024 = 2 Kb
6. How many Megabytes in 4096 Kilobytes ANSWER: 4096 / 1024 = 4Mb
7. Calculate the storage required for the top 5 downloaded albums shown:
Answer in Megabytes
ANSWER: 350 + 322 + 258 +289 +
317 = 1536Mb
8. How many Gigabytes of storage would the 5 albums take up?
ANSWER: 1536 /1024 = 1.5 Gb
9. Which Optical Backing Storage medium will be large enough to hold the 5 albums?
ANSWER: DVD
Battle Born 350 Mb
The Truth about Love
322 Mb
Number 3 258 Mb
Coexist 289 Mb
Our version of events
317 Mb
Top 5 Downloaded Albums
10. How many MP3s could you fit on a CD-RW (700 Mb) if the average file size was 8 Megabytes?
Show all your working Answer: CD-RW Capacity = 800Mb 700/ 8 = 87.5 So 87 MP3s
QuestionAdd 1.5 Gb to 256 MbHow can we do this if the values numbers above use different units?First we need to covert 1.5 Gb to Mb.How many Megabytes in a Gigabyte? 1024MbSo 1.5 * 1024 = 1536 MbNow we can add them up1536 + 256 = 1792 MbWhat is this in Gigabytes?1792 / 1024 = 1.75 Gb
Show all of your working for the following
1. Add 1 Gb to 512 Mb . Answer in Gigabytes
2. Find the total storage requirements for the following files:
MP3 = 32 MegabytesAlton Towers Trip Photo album = 128MbHWB- Health lifestyles video = 2 Gb
1. 1 Gb = 1024 Mb So 1024 + 512 = 1536Mb
1536 / 1024 = 1.5 Gb
2. 2 * 1024 = 2048 So 2048 + 32 +128 = 2208 Mb
2208/1024 = 2.15625 = 2.16 Gb to 2 Decimal places