Fiducials are used by the pick and place machine to provide better accuracy when placing components on the PCB. There is a camera that recognizes the fiducials and uses it as a registration point to calibrate where the machine thinks it is on the PCB.
There are two types of fiducials: Global and Local.
Normally a PCB will have 3 global fiducials per side (top & bottom), and usually in the corners of the PCB. This is so it can recognize the boards overall orientation and position.
Local fiducials are located near some of the critical parts. Usually there are two fiducials for each part, in opposite corners. IF you have several critical parts that are close together then a fiducial can be shared by two or more parts-- reducing the number of fiducials required and the the PCB space taken up by them.
Where you need local fiducials really depends on the pick and place machine that will be used, and the placement accuracy required by the component. Chips with a finer pin pitch will need fiducials more.
It's interesting to note that TQFP's need fiducials more than most BGA's. Most TQFP's have a pin pitch of around 0.5mm, while most BGA's are 0.8 to 1.27mm. BGA's also have a cool ability to somewhat self-align due to the surface tension of the melted solder. But I need to stress that this is very component and machine dependent, so check with your assembly shop.
Also machine dependent is going to be the construction of the fiducial. Things like how big the pad is, and how much the soldermask is pulled back. Usually the fiducial is round, but sometimes square or bow-tie shaped.
Another thing is that some assembly shops will request fiducials to just feel good about things-- but don't really need them. My second to last PCB had had lots of fine pitch BGA's, QFN's, and TQFP's and had no fiducials on it, but there were no issues with parts placement. My current board is nowhere near as difficult but they are requesting fiducials. Go figure. I'll humor them and put the fiducials on it.
The SO8W (Wide) package dimensions are as follows:
For confirmation, the datasheet of the specific part would be of value.
For land pattern and pad dimensions, just use a SO8N package layout, and split it down the middle to fit the wide package.
For a comprehensive list of package dimensions, see this link.
Best Answer
L is for Low-profile (1.4 mm) and T is for thin(er, 1.0 mm), so I think the only definitive difference between them is height. The pitch and package size can vary within each.