I am glad to share this.
'Cause I just work on embedded device with PowerPC, MIPS core, so I will not talk about x86, sorry.
The interrupt signal is generally triggered by the module controller, say, SD controller, UART controller, SPI controller, and the like.
As you know, the signal indicates there is an event happening on that device, and it needs CPU's attention.
On the chip, there is generally a interrupt processing module, to which interrupt signals from kinds of controllers will be sent.
Usually, there are more than one signal pins into the interrupt processing module, but, in common case, only one pin out of that module to CPU core.
If the interrupt signal pin is used just by only one device, or say, one controller, we can say that interrupt is not shared.
The reason we refer to shared interrupt is its handling flow is not the same with unshared interrupt.
Even if there is one interrupt present, and has been sent to core, it's not handled if there is no software willing to service it.
So, during the system's bootstrapping or initialization, in common, there will be a block of codes in each module, mainly device module, which will take charge of irq's initialization, such as, calling request_irq().
what request_irq() exactly does is to attach the softare to some interrupt signal, in this way, the relationship between hardware interrupt signal and software ISR is set up.
By calling request_irq(),the system is told that there is somebody who wants to take care of that event, and if that event happens, the system will make that person know by calling the function which is passed to request_irq() with the irq number.
By the way, I'm not very clear when you say "there are some adress for interrrupt".
Could you give more details?