How to Build the Ultimate American Football Player

One of our favorite times of the year at my facility is when our college football sessions begin in May. What makes our job unique when it comes to this 12-week program is our near absolute control over what Mike Robertson and Patrick Ward call the athletes’ stress bucket. When these guys come to train, there’s no external stress. Aside from a girlfriend and a landscaping job, their lives are a piece of cake. And it shows every day during the warm-up. We simply cannot get them to shut up (a very simple way to determine their level of central fatigue or lack thereof).

What do I mean when I say we control their level of stress? To today’s physical preparation coaches, the figure below is nothing new, but it demonstrates how we truly are the organisms’ stress managers over the course of the summer. We structure our athletes’ training around the General Adaptation Syndrome (GAS) by the day, by the week, and by the month. Seems simple enough, right? Apply a stimulus to the point of fatigue and watch the athlete recover and supercompensate leading to the next training session.

Wrong. In reality, each athlete has his own GAS, if you will. Different positions (lineman, receiver, etc.) require not only different stressors but also varying levels of intensity and volume. Our program fills the need for the application of unaccustomed stress. I believe this system is the ultimate guide for building today’s American football player.

The Summer Macrocycle

Before we dive into the daily training sessions, let’s look at a 10,000-foot view of the whole program for the three months we have these guys in-house. Let it be known, I in no way consider myself a “programming sensei,” I simply try to instill what others much smarter than I have found successful.

At first glance, you’re probably rolling your eyes with the assumption that there are too many moving pieces to this puzzle. It is much simpler than it appears. I like to refer to it as Modified Block Periodization where we’re linearly building athletic movement, meaning triphasic, concurrently raising all aspects of athleticism, all while respecting residual training effects (aerobic endurance, maximal strength, maximal speed, etc.). The big picture is nothing more than transitions from slow to fast, general to specific, and simple to complex using legend Al Miller’s suggested prescription of volume first, intensity second.

Mesocycle One

When the session begins in early May, some of the guys have been keeping up on their training since the end of spring ball while others have kept up with Call of Duty and Taco Bell. With that in mind, we adhere to the least common denominator and take everyone through two weeks of anatomical adaptation.

The benefits of this period are two-fold:

  • It raises work capacity.
  • It increases resiliency in the connective tissue while preparing the players for the more violent demands to come, i.e. sprinting.

Our speed work for the four weeks focuses on starts from a static position and is incredibly simple. Our go-to is two-point starts with the emphasis on front side arm mechanics and, most importantly, posture. We also emphasize posture, rhythm, and relaxation through extensive tempos during this block. In the weight room, we want the speed of the barbell to maintain relatively high speed. We are constantly cueing the guys to “rattle the plates,” as athletic movement starts from the ground up.

The first four weeks is a fan favorite (sarcasm) as we employ slow eccentrics to the main movement in the weight room, and we perform them in a cluster fashion. I would be remiss if I failed to mention that Cal Dietz and his work greatly influenced the resistance portion of our training session.

The goals of the eccentric phase, or block, are:

  • To reach a level of hypertrophy necessary for the sport’s violent demands.
  • To improve neuromuscular synchronization of the afferent/efferent pathways between the muscle spindles and central nervous system and desensitizing the Golgi tendon organ (GTO), which will then allow the organism to absorb high levels of force all while not triggering the over protective mother (GTO).

The only problem with eccentrics? They’re extremely stressful to the organism, which is why we use cluster sets during this block. Clusters are phenomenal for performing each rep at or near maximal velocity during the movement’s concentric contraction. This results in maximal power output, ultimately leading to greater improvements over time.

If you’re familiar with Coach Joe Kenn, you are without a doubt acquainted with his Tier System Strength Training template. I’ll explain why we implement it later in the article. For now, know our focus is on hypertrophy (“R” for repetition effort, or in our case, slow eccentrics and time-under-tension), then max effort, followed by a dynamic movement which could be a jump, throw, or use of accommodating resistance.

As for jumps during this block, we’ve had tremendous success with max effort, single response jumps. More specifically, static overcome by ballistic jumps (seated box jumps) with knee bends of at least 90 degrees to mimic the start of the acceleration phase.

Mesocycles Two and Three


As we progress further into the summer, the program becomes more demanding. The emphasis continues to center on the one biomotor ability that separates the terrible from the bad, the bad from the good, and the good from the great: speed. From a bioenergetic standpoint, we focus on alactic power rather than capacity. Why? It does not matter how many times a guy can run a 5-flat forty, he’s still slow. We find it more prudent to start building a Ferrari rather than a Ford Bronco.

As far as biodynamics are concerned, we begin to push the alactic envelope with longer accelerations and sprints. A staple in our program is flying 10’s (build 30, sprint 10) and medicine ball starts with great awareness on the height of their hips and their front side mechanics.
The fun part for my staff and me during this block is to witness the athletes realizing that as their speed increases, they’re able to generate more force with each ground contact. It’s even more rewarding to explain that the challenge they face as speed increases is that there’s less time available to apply force. A cue that’s worked time and time again for us is, “The only difference between flying and sprinting is ground contact.”The only difference between flying and sprinting is ground contact. Click To Tweet

Once they meet the sprinting requirements, they transition to the weight room with isometrics as well as true dynamic effort a la Westside Barbell. Isometrics seem to be all the rage again in the industry, so I’ll spare you the physiology lesson. Here are the benefits from isometrics that deserve mention:

  • Motor unit recruitment which will increase the number of muscle fibers that will engage or fire.
  • Rate coding will increase the rate at which the motor units fire, which then leads to a spike in muscular tension.
  • Isometrics will divert maximal energy from the eccentric phase directly to the concentric phase with minimal (or no) loss of energy.

During this block, we’ve had great buy-in and greater success with max effort, double response jumps to mimic the acceleration phase by still employing a somewhat deep knee bend. A tried and true variation we love is double broad jumps–effective and efficient. That’s a win-win.

July and August

Moving into July, we progress toward sport specific or what I prefer to call sport transferable. Our tempos become more intensive, and we center sprints on absolute speed. Bioenergetically, by having shorter distances and rest times for the tempos while giving the athletes a more powerful engine and larger speed reserve, we’re giving them the best opportunity to not only survive during a game but to thrive. Football is an alactic-aerobic sport with an emphasis on capacity.

Here’s how we prepare our athletes on a typical Saturday afternoon:

  • Average play is 5 seconds.
  • Average rest between plays is 28-37 seconds.
  • Average series is 5-6 plays.
  • Average rest between series is 9-10 minutes.
  • Average special teams play 7-8 seconds.

The game dictates what we do bioenergetically. While we’re not perfect, I’m confident we’re on the right track.

It doesn’t take an MIT graduate to understand we’re now placing a premium on “displaying your strength quickly” in the weight room, with the institution of the concentric or reactive phase, the short and multiple response jumps and plyometrics, and the priority Tier being dynamic.
A quick note on deloads: use them before your athletes need them. We back our guys down once a month. As Dr. Bryan Mann said, “Our body runs in three-week adaptation waves.” With that, we extract as much as we can from a given stimulus and then rejuvenate the organism. It’s not what you can do; it’s what you can recover from.

High/Low CNS Training

We use the high/low approach made famous by the late Charlie Francis. We are our athletes’ stress managers for the twelve weeks they’re with us, and this approach allows them to supercompensate constantly rather than seek homeostasis.

High CNS Training

After reviewing our weekly template, one could safely assume that our program revolves around sprinting. Why shouldn’t it? Speed kills. Allow me to quell your concerns regarding having only one day that addresses agility and jumps/plyometrics. We’re able to improve agility without venturing into that realm through linear acceleration and sprinting. How? Having your athletes sprint farther and faster in training allows them to reach higher speeds, thus achieving higher ground force. As we all know, high velocity=high force. Derek Hansen has touched on the multitude of benefits sprinting has when it comes to agility:

  • Improved change of direction.
  • Improved jumping ability (sprinting is a plyometric due to the flight phase).
  • Ability to decelerate quicker.
  • Less wear and tear (due to a decrease in agility/COD training).

When the organism is in a state of high velocity and high force, they reap the rewards of agility training without any of the risk. If we’re honest, we know agility and change of direction are hard on the organism. Knowing that, why venture into that realm of risk when it’s accomplished by sprinting full-speed?Linear acceleration and sprints train agility, allowing us to reduce risky plyometrics. Click To Tweet

Real world example: when Michael Vick was in his prime, he achieved maximal speeds at over 20 miles per hour (21.63 mph to be exact). When he was achieving at least 95% of his best times in max velocity speed training, submaximal velocities would be that much easier on him.
I believe that all team sport athletes need to tap into max velocity (absolute speed). Forget the benefits it has regarding jumping and change of direction, sprinting alone has a plethora of benefits, including:

  • If it’s strength you seek, max velocity sprinting will drive up weights, because it is 5x ground reaction forces, 7x muscle-skeletal forces, and the organism is applying anywhere from 600 to 1,000lbs of force with each stride.
  • It’s the safest expression of fight or flight. Derek Hansen said, “When a cheetah is chasing a springbok, does either animal pull a hamstring?”
  • Sprinting enhances the organism’s speed reserve. Simply put, as we increase an athlete’s absolute speed, their submaximal velocity (or game speed) raises as well. Sprinting builds endurance; endurance does not build speed.
  • Performing max velocity sprinting is a method of injury prevention. We’ve all seen a breakaway run in American football where the player blows his hamstring. This is because he did not do max velocity sprinting in training or practice, which led to a neurological misstep in his recruitment patterns.

Aside from the benefits of exposing our athletes to sprint work thrice during the work week, there are also substantial costs. The most glaring is the residual training effect of maximal speed. The benefits gained from training at or above 95% of maximal speed last a measly two days (depending on the athlete) as the residual training effects of this biomotor ability are five days ± three days.

A Typical CNS Day

On a typical high CNS day, we use my friend Mike Robertson’s R7 protocol:

  • R1: Release
  • R2: Reset
  • Dynamic Warm-Up
  • R3: Reactive
  • R4: Readiness (Game Changers)
  • R5: Resistance
  • R6: Resiliency
  • R7: Recovery

Release–For the release portion, we prescribe no more than three areas for the athletes to perform self-myofascial release. We stick to three because I believe if we prescribe more, we start to venture into the parasympathetic realm. As all of you know, we’re trying to shift to sympathetic dominance on a high CNS day.

Resets–I admit we’re not postural restoration wizards, nor are we great with functional movement screening when it comes to resets. However, my director of performance, Thomas Bowes, is a mobility guru on all things Supple Leopard. We know what we’re proficient at, and our guys feel good, mobile and stable, and that’s all that matters.

Dynamic Warm-Ups–After we’ve relieved some tension and moved the guys into more advantageous positions, we start our dynamic warm-up. Trust me, it’s nothing earth shattering. Again, I may not be the smartest guy in the room; I just apply what the best have done. We have great success with flowing yoga movement patterns as well as Buddy Morris’ high CNS warm-up.

Reactive–The optimal volume for a world-class sprinter is 600 meters of max velocity. Newsflash, I do not work with world-class sprinters, so we adjusted our sprinting volumes based on position to meet the demands of our athletes. Our reactive segment taps into 100-300 meters of sprint volume. Dan Pfaff says, “Acceleration is a skill.” We believe that any skill needs to be addressed daily. The lineman will do at least 60 meters every single day, big skill will perform at least 100 meters every single day, and skill will be exposed to at least 150 meters every single day.The closer an athlete is to the football, the more he requires strength. Click To Tweet

This is where our program may be unique: a linemen’s exposure to the reactive segment is rather brief, but his time during our resistance segment is much more extensive. This is because the closer an athlete is to the football, the more he requires strength. The relationship between strength and speed is inverse for our skill players. Their time during the reactive portion will be far greater than time spent in the weight room as their position demands more sprint volume with less of a premium on strength and weights.

Readiness–The bridge from sprint work to the weight room is what we call game changers, or readiness. Joe Kenn calls it halftime. Vernacular does not matter, substance does. This portion consists of:

  • Posterior chain–hinge, knee flexion, or spinal erector
  • Posterior shoulder–abduction, adduction; downward, upward rotation; protraction, retraction, or elevation, depression
  • Abdominals–anti-extension, flexion, rotation
  • Neck

We’ve found this is highly effective at the beginning of the weights segment to ensure the proper muscles are firing before the “meat” of the lift. For example, hinging before a deadlift or performing a knee flexion variation before squatting. From a more practical standpoint, as the workout nears the end, what athlete is going to be fully engaged if we place this portion at the end?

Resistance–We love Coach Kenn’s Tier System for resistance; this game is played head-to-toe, toe-to-head. I have yet to see a football player use only his upper body in the first half and his lower body in the second half. That alone provides enough rationale to address the total body each weight session. Our weights are extremely simple, efficient, and effective. We only use three exercises each workout–yes, only three. Volumes are adjusted based on position, but we make it known that we are concerned with speed, not weights. A typical session would look similar to this:

Resiliency–For us, resiliency means bringing the athletes through movements that are cyclical (running A’s, ankle jumps) because of the following:

  • Typically all movements in the weight room are acyclical.
  • Sport is cyclical. We want to bring them back to what they’ll face on the field.
  • Cyclical movements re-establish proper intermuscular coordination between the agonist and antagonist. As Charlie Francis once said, “It is not how fast you can contract a muscle, it is how quickly you can relax.”

Recovery–Again, nothing ground breaking when it comes to recovery. We prescribe the guys elevate their feet and achieve a parasympathetic state, or “rest and digest” to help kick-start the recovery process. With early 20-year-olds, this is a popular time for Snapchat sharing and selfies–not a bad promotion for our facility. If it gets them to relax, I’ll take it.

Low CNS Training

On the low days, we prescribe tempos based on position. Larger athletes (lineman) won’t have the same volume that a cornerback performs. Our ranges will vary anywhere from 1000-2000 meters; at the beginning of the summer we focus more on extensive tempos and progress toward (slightly) more intensive and glycolytic tempos in July and August.

Along with the tempos, we prescribe upper body circuits that include medicine ball throws. This accomplishes a few things for the athletes:

  • The nutrient rich blood, or the pump, will flush out any toxins and waste accumulated from the previous day’s high CNS session. And let’s be honest, it provides a psychological benefit as well. The guys feel good after a brief upper body workout.
  • The low volume from the circuit will aid in recovery for the next day’s high CNS session.
  • If you pay attention to Charlie’s system, you can have a high CNS component on a low CNS day as long as it’s brief. With that in mind, we moved our medicine ball throws (with indirect transfer to sprinting based on the specific variation) to our low days a la Buddy Morris.


By the end of the summer, these young men have developed bonds that carry over into the season as they mention one another on Twitter, post pics of their new friends’ success on Instagram, and are truly invested in each other’s careers. It’s one of the best parts of being in the private sector–the relationships.

My goal for this article is not to brag or boast, but to simply shed light on how we’ve found great success. And, speaking candidly, I hope this will encourage other coaches to be as open as I am so we may all benefit and continue to learn from one another. I am not naïve to the fact that, with this article, may come criticism. I have zero issue with this, as there is no perfect program. The program I presented to you is different from what we did in years past and will continue to change and evolve because training, by nature, is incomplete. In fact, as Buddy Morris once told me, “The best program is the one you’re not on!” With that in mind, let us professionals continue to pay it forward, grow, and ultimately help those we serve. This is truly what this industry is all about.

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