can you help me do a quartus block diagram and simulation result? thank you

provide a screenshot demonstration from Quartus prime or hand-drawn schematic other than that please dont answer, this is the 3rd time posting this and all I get is an unrelated explanation

Q[3..0] - outputs of the 4 D-Type Flip flops (Q[3] is the MSB) = the present state (what count you are on) Simulation Specifications: - Simulation Length (end time) 400ns - Grid Size =10ns - clk-20ns period 50% duty-cycle, Ons offset (edit VALUE overwrite clock) - The RESET should set the flip-flops to a known state before the first rising clock edge. (Temporarily turn off "snap to grid" in the Edit menu to select a segment smaller than 10ns ) - Up=1 from Ons to 200n s - Up=0 from 200ns to 400ns. - The output, Q[3..0], should be grouped and read as UNSIGNED DECIMAL (make sure Q[3] is at the top of the list when grouping) Follow the above instructions exactly You should replicate the simulation screen below: (You do not need the Highlights) Available Hardware: 4, D-Type Flip-Flops, rising edge triggered, with active-low preset and clear - "DFF" in Quartus Unlimited AND, OR, NOT, XOR gates of fan-in up to 4. You may also choose to use 2:1 Muxes (21mux in Quartus) Note on DFF: The PRN and CLRN are ACTIVE_LOW, asynchronous preset and clear. IF you need to set something permanently to 1 or 0 use the VCC or GND symbol Floating pins are bad design, do not leave any input disconnected. 1=cNo1vec=0 PART II: Follow up Questions Read the following definition of a Complex Engineering Problem and answer the following questions: Complex engineering problems include one or more of the following characteristics: involving wideranging or conflicting technical issues, having no obvious solution, addressing problems not encompassed by current standards and codes, involving diverse groups of stakeholders, including many component parts or sub-problems, involving multiple disciplines, or having significant consequences in a range of contexts. 1. Do you consider this design to be a "complex engineering problem"? 2. Can you think of a problem that would require a complex digital solution? What to Submit: I have provided a template. Follow the template as you do your design, as it will walk you through the design process