"EU" is the generic term for Execution Unit. The ALU is one example of an execution unit. FADD and FMUL, i.e. the floating point adder or multiplier, are other examples - as, for that matter are (is) the memory unit, for loads and stores.
The EUs relevant to LEA instructions are the ALU (add, subtract, AND/OR, etc.) and the AGU (Addres Generation Unit). The AGU is coupled to the memory pipelines, TLB, data cache, etc.
A typical Intel x86 CPU has 2 ALUs, 1 load pipeline tiedto an AGU, a store address pipeline tied to a second ALU, and a store data pipeline. Some have 3 ALUs.
LEA is a 3 input instruction - BaseReg+IndexReg*Scale+Offset. Just like the memory addressing mode of x86, which actually has a 4th inout, the segment base, that is not part of the LEA calculation. 3 inputs necessarily costs more than the 2 inputs needed for ADD.
On some machines, the ALU can only do 2 input operations. LEA therefore can only execute on an AGU, specifically the AGU used for load (because the store ALU doesn't write a register). This means that you can't do LEA at the same time as ADD.
On other machines, LEA can be done by one, or two or three, of the ALUs. Possibly instead of the AGU - possibly as well as the ALU. Ths provies more flexibility.
So, the question cmes down to: which EU (Execution Unit) handles LEA? The ALU or the AGU? The answer depends on the machine.
Generic text in an optimization guide may simply say "EU" rather than "AGU or ALU, depending on the model."