It's very common for utility-scale solar to use single-axis trackers (the panels move from pointing east to pointing west through the day), unlike small-scale solar which usually has fixed panels (normally pointing south or north depending on which hemisphere you're on). The gain from single-axis trackers is high enough and their cost is low enough (a single geared motor can move a whole row of panels) to make it cost-effective.
(I haven't, so far, seen any large photovoltaic solar power plant which uses two-axis trackers to really track the sun; but thermal solar power plants with a central tower need these two-axis trackers to aim each mirror at the correct angle.)
I think trackers are a thing of the past. The cost of solar panels has sunken so low, they come essentially for free in installations. A tracker would be way to expensive. Here in Germany, people even start covering north-facing roofs with solar, and of course even walls and fences, if they are roughly in the right direction.
It's very common for utility-scale solar to use single-axis trackers (the panels move from pointing east to pointing west through the day), unlike small-scale solar which usually has fixed panels (normally pointing south or north depending on which hemisphere you're on). The gain from single-axis trackers is high enough and their cost is low enough (a single geared motor can move a whole row of panels) to make it cost-effective.
(I haven't, so far, seen any large photovoltaic solar power plant which uses two-axis trackers to really track the sun; but thermal solar power plants with a central tower need these two-axis trackers to aim each mirror at the correct angle.)